四川大学化学学院
师资力量

胡常伟     教授,博士生导师

研究方向:

联系方式:          Email:changweihu@scu.edu.cn

个人主页:点击进入

个人简介

胡常伟,男,1963.5,四川筠连。四川大学获学士(1983)、硕士(1991)和博士(1996)学位。中国化学会会士,英国皇家化学会会士(FRSC)。2011年获国家教学名师奖(第六届高等学校教学名师奖),2008年享受国务院特殊津贴,四川省学术和技术带头人。现任教育部高等学校大学化学课程教学指导委员会副主任委员、四川省普通本科高等学校教学指导委员会化学类专业教学指导委员会主任委员;中国化学会理事;中国化工学会理事;四川省化学化工学会理事长;绿色化学与技术教育部重点实验室主任,能源植物生物燃油制备及利用国家地方联合工程实验室副主任。英国皇家学会绿色化学系列丛书顾问,国际可持续发展化学合作中心学术委员会委员,ChemSusChem杂志国际顾问委员会委员,Sustainable Chemistry for the Environment副主编,Innovation Discovery副主编,CatalystsBiomassCurrent OrganocatalysisJournal of Modern Agriculture and Biotechnology等刊物编委。《化学研究与应用》主编,《天然气化工》、《石油化工》、《应用化工》、《贵金属》刊物等编委。

主要从事物理化学/绿色化学教学科研工作,《绿色化学》国家教学团队负责人,主持编写了国家《大学化学》“十一•五”规划、“十二•五”规划教材,《大学化学》国家一流课程负责人;主持建成《绿色化学》国家精品课程、国家双语示范课程和国家资源共享课程,建成《绿色化学》(本科课程)MOOC 国际国内上线。围绕资源有效利用和从源头上消除环境污染开展研究工作,目前承担国家自然科学基金重点项目等研究项目。已发表SCI收录论文500余篇,部分论文发表在Nat. Comm., J. Am. Chem. Soc., Angew. Chem. Int. Ed., Appl. Catal. B, ACS Catal., Green Chem., ChemSusChem等刊物上,2021起为Elsevier中国高被引学者。已获国家发明专利40余项,20次获得省部级以上教学科研奖励及荣誉。

工作简历

1983.06- 四川大学(1983.06-1989.05助教、1989.06-1993.05讲师、1993.06-1996.10副教授、1996.11- 教授)

主要研究方向

1、生物质转化

(1) 原生物质催化转化制备生物油和化工产品

(2) 生物质纯组分催化热化学转化生产精细化学

(3) 生物柴油及高品质燃油的制备研究

2、基于原子经济性的C-H活化

(1) 双氧水一步选择性氧化甲苯等取代苯的研究

(2) 苯酚和苯胺的绿色合成(芳香族化合物功能化研究)

3、温室气体转化利用

1)甲烷活化利用

2)二氧化碳活化利用

4、理论模拟:反应机理的理论模拟研究

 

(1). 胡常伟,李贤均,绿色化学原理和应用, 中国石化出版社,2002

(2). 胡常伟 主编,基础化学,四川大学出版社,2005

(3). 何玉萼,袁永明,胡常伟,物理化学,化学工业出版社,2007

(4). 胡常伟 主编,大学化学(“十一·五”、“十二·五”规划教材),化学工业出版社,20092013

(5). 胡常伟,李建梅,祝良芳,童冬梅,李丹,生物质转化利用,科学出版社,2019

获国家发明专利40余项,发表论文500余篇。

[1] Zhang, W.; Qin, J.; Liao, S.; Zhou, S.; Li, J.; Hu, C. Mg-modified layered erbium hydroxides promoting glucose transformation to lactic acid. Catalysis Today 2025, 445,

[2] Zhang, W.; Qin, J.; Liao, S.; Li, G.; Li, J.; Hu, C. Titanium Silicate-1 Coupled with Sn and Er as Effective Catalysts for the Production of Lactic Acid from Saccharides. ChemCatChem 2025, 17 (1),

[3] Zhang, C.; Li, S.; Deng, L.; Yan, J.; Su, Z.; Yu, Z.; Hu, C. Visible-Light-Induced ArC(sp3)−F Bond Activation in Aqueous Media: From DFT Study to Molecular Design. Chemistry - A European Journal 2025, 31 (6),

[4] Liu, T. H.; Fu, S.; Gou, J. T.; Zhang, M. H.; Hu, C. W.; Yang, H. Q. Theoretical Exploration of the Competitive Mechanism for Hydrodehydration and Decarboxylation of 2,5-Furandicarboxylic Acid by Pt1 and Pt3 Supported on Nb2O5. Journal of Physical Chemistry C 2025, 129 (1), 292.

[5] Liu, Q.; Gong, Y.; Zeng, J.; Zhao, Y.; Lv, J.; Jiang, Z.; Hu, C.; Zhou, Y. Strategic Metal Doping in MnOx Catalysts Unlocks High-Yield 2,5-Furandicarboxylic Acid Production via Tailored Lattice Oxygen Activity and Oxygen Vacancies. ACS Sustainable Chemistry and Engineering 2025,

[6] He, T.; Sun, J.; Deng, L.; Ming, J.; Hu, C. Recycling Fe and improving organic pollutant removal via in situ forming magnetic core-shell Fe3O4@CaFe-LDH in Fe(II)-catalyzed oxidative wastewater treatment. Journal of Environmental Sciences (China) 2025, 147, 523.

[7] Gu, Y.; Wang, W.; Zhou, C.; Hu, C. Catalytic Pyrolysis of Moso Bamboo Over Acid-treated Red Mud Catalyst for Bio-Oil Production. ChemistrySelect 2025, 10 (1),

[8] Costa, J. M.; Wang, W.; Nakasu, P. Y. S.; Hu, C.; Forster-Carneiro, T.; Hallett, J. P. Impacts of microwaves on the pectin extraction from apple pomace: Technological properties in structuring of hydrogels. Food Hydrocolloids 2025, 160,

[9] Zhou, Y.; Remón, J.; Ding, W.; Jiang, Z.; Pinilla, J. L.; Hu, C.; Suelves, I. An innovative ‘sea-thermal’ synergetic biorefinery for biofuel production: Co-valorization of lignocellulosic and algal biomasses using seawater under hydrothermal conditions. Journal of Cleaner Production 2024, 462,

[10] Zhou, L.; Yang, H.; Du, X.; Hu, C. Regulating the Hydrodeoxygenation Activity of Molybdenum Carbide with Different Diamines as Carbon Sources. Catalysts 2024, 14 (2),

[11] Zheng, W.; Feng, S.; Hu, C. Production of Oximes Directly from Sustainable Lignocellulose-Derived Aldehydes and Ammonia over HTS-1 Catalyst. ChemSusChem 2024, 17 (4),

[12] Zhang, Y. S.; Gou, J. T.; Liu, T. H.; Zhang, M. H.; Hu, C. W.; Yang, H. Q. Theoretical Mechanism Exploration of Highly Selective Reductive Amination of Furfural to Furfurylamine over a Single-Atom Ru1-N3/C Catalyst. Journal of Physical Chemistry C 2024, 128 (37), 15431.

[13] Zhang, Y.; Luo, Y.; Hu, C.; Tang, D.; Su, Z. Redox-neutral depolymerization of lignin-derived aryl ethers catalyzed by Rh(iii)-complexes: a mechanistic insight. Physical Chemistry Chemical Physics 2024, 26 (36), 23710.

[14] Zhang, R.; Zhang, J.; Liu, H.; Jiang, Z.; Liu, X.; Wang, W.; Peng, L.; Hu, C. Toward Value-Added Chemicals from Carbohydrates via C-C Bond Cleavage and Coupling Transformations. ACS Catalysis 2024, 14 (7), 5167.

[15] Yang, R.; Xu, S.; Wang, X.; Xiao, Y.; Li, J.; Hu, C. Selective Stereoretention of Carbohydrates upon C−C Cleavage Enabling D-Glyceric Acid Production with High Optical Purity over a Ag/γ-Al2O3 Catalyst. Angewandte Chemie - International Edition 2024, 63 (22),

[16] Xue, Z.; Hu, P.; Li, H.; Wu, D.; Guo, Y.; Lv, H.; Hu, C.; Zhu, L. Boosting the catalytic efficiency of sulfonated crosslinked-polyaniline organocatalyst for producing 5-hydroxymethylfurfural from fructose. Fuel 2024, 370,

[17] Xiong, J. S.; Min, H. Y.; Qi, T.; Zhang, Y. S.; Hu, C. W.; Yang, H. Q. Theoretical comparison of fructose with methylglucoside for the production of formate and levulinate catalyzed by Br➢nsted acids in a methanol solution. Physical Chemistry Chemical Physics 2024, 26 (23), 16664.

[18] Xiong, J. S.; Min, H. Y.; Li, H.; Li, M.; Zhu, L. F.; Hu, C. W.; Yang, H. Q. Origin of Catalytic Selectivity from Sn(OTf)2 in Methanol Solution for the Conversion of Glucose to α-Hydroxyesters. Journal of Physical Chemistry C 2024, 128 (9), 3718.

[19] Xin, H.; Chen, X.; Xiao, C.; Chao, J.; Zhang, H.; Tan, J.; Hu, C.; Wu, L.; Li, D. The CeO2 morphology modulates the density and catalytic performance of dual-active site for enhancing the palmitic acid conversion. Fuel 2024, 378,

[20] Wu, D.; Hu, P.; Li, H.; Xue, Z.; Lv, H.; Guo, Y.; Hu, C.; Zhu, L. Influences of fractional separation on the structure and reactivity of wheat straw cellulose for producing 5-hydroxymethylfurfural. Chinese Journal of Chemical Engineering 2024, 73, 154.

[21] Wang, Y.; Zhao, Y.; Hu, C. Slow Pyrolysis of De-Oiled Rapeseed Cake: Influence of Pyrolysis Parameters on the Yield and Characteristics of the Liquid Obtained. Energies 2024, 17 (3),

[22] Wang, J.; Lai, J.; Zhao, W.; Zhou, C.; Hu, C. Preparation of structural colors from lignin: Improving the homogeneity between different raw materials by solvent precipitation fractionation. Chemical Engineering Journal 2024, 499,

[23] Sun, Q.; Ge, C.; Feng, S.; Zeng, Q.; Li, G.; Hu, C. C[sbnd]C rupture in key monosaccharides and succedent redox in supercritical ethanol. Chemical Engineering Journal 2024, 500,

[24] Song, M.; Li, L.; Wu, X.; Cai, H.; Li, G.; Hu, C. The Influence of the ZrO2 Crystal Phase on Cu/ZrO2-Al2O3 Catalysts in Methanol Steam Reforming. Catalysts 2024, 14 (8),

[25] Shen, Y.; Zhang, Y.; Zhang, C.; Li, H.; Hu, C.; Yu, Z.; Zheng, K.; Su, Z. Elucidating Mechanism and Selectivity in Pyridine Functionalization Through Silylium Catalysis. Chemistry - A European Journal 2024, 30 (51),

[26] Qin, J.; Li, R.; Tian, Q.; Li, G.; Li, J.; Hu, C. Insights into the selectivity to glyceric acid and lactic acid from biomass: Reaction mechanism and temperature effect. Chemical Engineering Journal 2024, 494,

[27] Min, H. Y.; Xiong, J. S.; Liu, T. H.; Gou, J. T.; Hu, C. W.; Yang, H. Q. Theoretical Mechanism of Rh-Containing Species Catalyzing the Hydrogenolysis of Lignin Model Compounds Using −CαO-H and −Cα-H Groups as Superior H-Sources. Journal of Physical Chemistry B 2024, 128 (50), 12540.

[28] Min, H. Y.; Xiong, J. S.; Liu, T. H.; Fu, S.; Hu, C. W.; Yang, H. Q. Mechanism of CO2 in promoting the hydrogenation of levulinic acid to γ-valerolactone catalyzed by RuCl3 in aqueous solution. Physical Chemistry Chemical Physics 2024, 26 (20), 14613.

[29] Liu, Y.; Zhou, S.; Wang, X.; Qin, J.; Hu, C.; Li, J. Coproduction of Glyceric Acid and Glycolic Acid from Biomass-Based Sugars over a Ru/Co3O4 Catalyst. ACS Catalysis 2024, 14 (10), 7609.

[30] Liu, X.; Zhou, P.; Zhu, Z.; Guo, Y.; Lv, H.; Zhang, Z.; Zhu, L.; Hu, C. Multisite CuNi/Al2O3 Catalyst Enabling High-Efficiency Reductive Amination of Biomass-Derived Levulinic Acid (Esters) to Pyrrolidones under Mild Conditions. ACS Catalysis 2024, 91.

[31] Liu, X.; Feng, S.; Jiang, Z.; Fang, Q.; Hu, C. Aqueous Phase Selective Hydrogenation of Lignin-Derived Phenols to Cyclohexanols Over Pd/γ-Al2O3. Topics in Catalysis 2024, 67 (19-20), 1241.

[32] Liu, T. H.; Gou, J. T.; Min, H. Y.; Zhang, M. H.; Hu, C. W.; Yang, H. Q. Theoretical Insight into the Mechanism for the Cellobiose-to-Sorbitol Hydrogenation Over Diatomic Ru2/NC Catalyst. Langmuir 2024, 40 (48), 25670.

[33] Liu, T. H.; Fu, S.; Gou, J. T.; Zhang, Y. S.; Hu, C. W.; Yang, H. Q. Synergistic promotion of oxygen vacancy and Lewis acidity of Nb2O5 on the preferential hydroxymethyl hydrogenolysis of 5-hydroxymethylfurfural catalyzed by single atom Pt. Catalysis Science and Technology 2024, 14 (22), 6550.

[34] Li, Z.; Yang, H.; Feng, S.; Sun, Q.; Gao, G.; Jiang, Z.; Hu, C. Selective hydrogenation of furfural to tetrahydrofurfuryl alcohol in isopropanol over hydrotalcite-derived nickel-based catalyst. Chemical Engineering Journal 2024, 482,

[35] Li, Z.; Jiang, Z.; Luo, Y.; Ge, C.; Wang, X.; Hu, C. Study on the role of alkali halides on the mutarotation and dehydration of D-xylose in aqueous solution. Carbohydrate Research 2024, 545,

[36] Li, H.; Min, H.; Hu, Y.; Hu, P.; Li, L.; Yang, H.; Hu, C.; Zhu, L. A universal solvent effect on the formation of soluble humins in glucose dehydration to 5-hydroxymethylfurfural. Reaction Chemistry and Engineering 2024, 9 (6), 1499.

[37] Li, H.; Hu, Y.; Hu, P.; Li, L.; Wu, D.; Xue, Z.; Hu, C.; Zhu, L. Sequential extraction and separation of soluble humins from fructose conversion for structural and evolutional understanding. Green Chemistry 2024, 26 (9), 5499.

[38] Li, H.; Hu, P.; Wu, D.; Xue, Z.; Lv, H.; Hu, C.; Zhu, L. Water Removal Enables High-Efficacy Synthesis of 5-Ethoxymethylfurfural and Ethyl Levulinate as Biofuel Candidates from High-Concentration Fructose. Energy and Fuels 2024, 38 (16), 15385.

[39] Hu, Y.; Li, H.; Wu, D.; Li, L.; Hu, C.; Zhu, L. Boosting catalytic performance of Amberlyst‐15 by modulating surface properties for synthesis of 5-hydroxymethylfurfural from high-concentration fructose. Catalysis Today 2024, 442,

[40] Hu, P.; Li, H.; Xue, Z.; Wu, D.; Hu, Y.; Li, L.; Hu, C.; Zhu, L. Underlying Mechanisms on the Controlled Depolymerization of High-Loading Cellulose in Water Promoted by Cetyltrimethylammonium Bromide. ACS Sustainable Chemistry and Engineering 2024, 12 (1), 393.

[41] Gu, Y.; Wang, W.; Zhou, C.; Hu, C. Catalytic pyrolysis of corncob residues and pubescens over pristine and alkalis-treated HZSM-5. Journal of Analytical and Applied Pyrolysis 2024, 181,

[42] Ge, C.; Sun, Q.; Zhang, R.; Zhu, L.; Hu, C. Intramolecular interaction induced C-C cleavages in fructose conversion in polar aprotic solvents—origin of the formation of excess formic acid and oligomers. Physical Chemistry Chemical Physics 2024, 26 (41), 26537.

[43] Fu, X.; Hu, Y.; Hu, P.; Li, H.; Xu, S.; Zhu, L.; Hu, C. Mapping out the reaction network of humin formation at the initial stage of fructose dehydration in water. Green Energy and Environment 2024, 9 (6), 1016.

[44] Feng, S.; Ge, C.; Sun, Q.; Zheng, W.; Li, G.; Hu, C. Valorization of agriculture waste: Preparation of alkoxysilanes from mixed rice straw and rice husk ash. Chemical Engineering Journal 2024, 495,

[45] Feng, S.; Fan, J.; Sun, Q.; Zheng, W.; Hu, C.; Clark, J. H. Integrated biorefinery incorporating the one-pot production of esters, monophenols, and alkoxysilanes. Journal of Cleaner Production 2024, 452,

[46] Deng, L.; Li, S.; Zhang, C.; Zhou, Y.; Su, Z.; Hu, C.; Zhao, X.; Yu, Z. Visible-light responsive defluorination-acyl fluoride exchange for photoclick labeling based on phenoxazine chromophores. Organic Chemistry Frontiers 2024, 12 (1), 231.

[47] Zhou, Y.; Remón, J.; Jiang, Z.; Matharu, A. S.; Hu, C. Tuning the selectivity of natural oils and fatty acids/esters deoxygenation to biofuels and fatty alcohols: A review. Green Energy and Environment 2023, 8 (3), 722.

[48] Zhang, W.; Xu, S.; Wang, X.; Liu, Y.; Yang, R.; Li, J.; Hu, C. The chemo-catalytic racemization of lactic acid enantiomer derived from biomass via keto-enol tautomerization. Industrial Crops and Products 2023, 193,

[49] Zeng, Y.; Wang, H.; Yang, H.; Juan, C.; Li, D.; Wen, X.; Zhang, F.; Zou, J. J.; Peng, C.; Hu, C. Ni nanoparticle coupled surface oxygen vacancies for efficient synergistic conversion of palmitic acid into alkanes. Chinese Journal of Catalysis 2023, 47, 229.

[50] Zeng, W.; Li, L.; Song, M.; Wu, X.; Li, G.; Hu, C. The effect of different atmosphere treatments on the performance of Ni/Nb–Al2O3 catalysts for methane steam reforming. International Journal of Hydrogen Energy 2023, 48 (16), 6358.

[51] Yang, H.; Zhou, L.; Chen, H.; Zeng, Y.; Li, D.; Hu, C. Efficient hydrogenation of aliphatic acyclic amides to amines by bimetallic NiMo nitrides via heterogeneous catalysis. Chemical Engineering Journal 2023, 473,

[52] Yang, H.; Tian, L.; Grirrane, A.; García-Baldoví, A.; Hu, J.; Sastre, G.; Hu, C.; García, H. Enhanced Fatty Acid Photodecarboxylation over Bimetallic Au-Pd Core-Shell Nanoparticles Deposited on TiO2. ACS Catalysis 2023, 13 (22), 15143.

[53] Yang, H.; Garcia, H.; Hu, C. Hydrogenation of amides to amines by heterogeneous catalysis: a review. Green Chemistry 2023, 26 (5), 2341.

[54] Yang, H.; Du, X.; Zhou, L.; Li, D.; Hu, C. Enhanced deoxygenation performance and coke resistance of Ni-based catalysts for jatropha oil conversion by rare earth elements. Fuel 2023, 334,

[55] Xiong, J. S.; Qi, T.; Hu, Y. X.; Yang, H. M.; Zhu, L. F.; Hu, C. W.; Yang, H. Q. Cooperative Catalysis Mechanism of Br➢nsted and Lewis Acids from Al(OTf)3 with Methanol for β-Cellobiose-to-Fructose Conversion: An Experimental and Theoretical Study. Journal of Physical Chemistry A 2023, 127 (31), 6400.

[56] Xiao, Y.; Xu, S.; Wang, X.; Lu, Z.; Hu, C.; Li, J. Enteromorpha prolifera valorization to acetol over supported Pd catalysts: Role of the support. Chemical Engineering Journal 2023, 475,

[57] Wu, X.; Li, L.; Song, M.; Cai, H.; Yang, J.; Li, G.; Hu, C. Insight into the impacts of MnO2 crystal phases on CO2 selective hydrogenation to CH4 on Ni/MnOx catalysts. Journal of CO2 Utilization 2023, 75,

[58] Wei, Q.; Zhang, Y.; Lv, C.; Hu, C.; Su, Z. Theoretical Study on Cooperation Catalysis of Chiral Guanidine/ Copper(I) in Asymmetric Azide-Alkyne Cycloaddition/[2 + 2] Cascade Reaction. Journal of Organic Chemistry 2023, 88 (14), 9973.

[59] Wang, Y.; Li, L.; Li, G.; Zhao, Q.; Wu, X. S.; Wang, Y.; Sun, Y.; Hu, C. Synergy of Oxygen Vacancies and Ni0 Species to Promote the Stability of a Ni/ZrO2 Catalyst for Dry Reforming of Methane at Low Temperatures. ACS Catalysis 2023, 13 (10), 6486.

[60] Wang, W.; Gu, Y.; Zhou, C.; Hu, C. The impact of hydrothermal-acid infusion pretreatment on the pyrolytic behaviors of high-ash biomass. Journal of Analytical and Applied Pyrolysis 2023, 173,

[61] Wang, S.; Wang, Y.; Yao, L.; Hu, C. Temperature hysteresis in dry reforming of methane on Ni/SBA-15 catalyst: Low temperature activity originated from the synergy of Ni0 and carbon nanotubes. Applied Catalysis B: Environmental 2023, 333,

[62] Sun, Q.; Feng, S.; Li, G.; Qi, Y.; Hu, C. Influence of Different Treatments on the Structure and Conversion of Silicon Species in Rice Straw to Tetraethyl Orthosilicate (TEOS). ChemistryOpen 2023, 12 (8),

[63] Song, M.; Zeng, W.; Li, L.; Wu, X.; Li, G.; Hu, C. Effect of the Zr/Al Molar Ratio on the Performance of Cu/ZrO2-Al2O3 Catalysts for Methanol Steam Reforming. Industrial and Engineering Chemistry Research 2023, 62 (9), 3898.

[64] Qin, D.; Liu, Y.; Yang, R.; Li, J.; Hu, C. Complete Low-Temperature Transformation and Dissolution of the Three Main Components in Corn Straw. ChemistryOpen 2023, 12 (2),

[65] Liu, T. H.; Fu, S.; Zhang, Y. S.; Hu, C. W.; Yang, H. Q. Theoretical Insight into the Mediation Mechanism of Water on Favorable Isomerization over Epimerization of Glucose on the Nb2O5 Catalyst. Journal of Physical Chemistry C 2023, 127 (34), 16914.

[66] Li, M.; Zhou, Y.; Hu, C. One Step Catalytic Conversion of Polysaccharides in Ulva prolifera to Lactic Acid and Value-Added Chemicals. Catalysts 2023, 13 (2),

[67] Li, M.; Xiong, J. S.; Min, H. Y.; Hu, Y. X.; Zhu, L. F.; Hu, C. W.; Yang, H. Q. Coordination of sorbitol to Ga(OTf)3 in the liquid phase: an experimental and theoretical study. Physical Chemistry Chemical Physics 2023, 25 (12), 8507.

[68] Li, L.; Hu, Y.; Li, H.; Hu, P.; Xue, Z.; Wu, D.; Hu, C.; Zhu, L. Probing the formation of soluble humins in catalytic dehydration of fructose to 5-hydroxymethylfurfural over HZSM-5 catalyst. Fuel 2023, 344,

[69] Hu, P.; Hu, Y.; Li, H.; Li, L.; Xue, Z.; Wu, D.; Zhao, J.; Hu, C.; Zhu, L. Orientated inhibition of humin formation in efficient production of levulinic acid from cellulose with high substrate loading: Synergistic role of additives. Carbohydrate Polymers 2023, 309,

[70] Hu, F.; Zhang, C.; Liu, Z.; Xie, X.; Zhao, X.; Luo, Y.; Fu, J.; Li, B.; Hu, C.; Su, Z.; et al. Photoswitchable and long-lived seven-membered cyclic singlet diradicals for the bioorthogonal photoclick reaction. Chemical Science 2023, 14 (45), 13254.

[71] Gou, J. T.; Tai, W.; Fu, S.; Liu, T. H.; Zhang, Y. S.; Hu, C. W.; Yang, H. Q. Mechanistic Insight into Favorable Aldehyde Hydrogenation over Hydroxymethyl Hydrogenolysis in 5-Hydroxymethylfurfural by Formic Acid over Single-Atom Co-N3/C. Journal of Physical Chemistry C 2023, 127 (9), 4535.

[72] Gou, J. T.; Liu, T. H.; Fu, S.; Zhang, Y. S.; Tai, W.; Hu, C. W.; Yang, H. Q. Regular pattern of the single-atom M-N3/C (M = Sc Cu) toward the activation of O2. Carbon Trends 2023, 11,

[73] Gao, G.; Feng, S.; Jiang, Z.; Hu, C.; Zhang, Q.; Tsang, D. C. W. Efficient Hydrogenation of Glucose to Polyols over Hydrotalcite-Derived PtNi Alloy Catalyst under Mild Conditions. Industrial and Engineering Chemistry Research 2023, 62 (7), 3140.

[74] Fu, Y.; Zhang, Y.; Hu, C.; Su, Z. A mechanistic study on coupling of CO2 and epoxide mediated by guanidine/TBAI catalysts. New Journal of Chemistry 2023, 48 (2), 920.

[75] Deng, L.; Zhang, C.; Li, B.; Fu, J.; Zhang, Z.; Li, S.; Zhao, X.; Su, Z.; Hu, C.; Yu, Z. Photo-induced defluorination acyl fluoride exchange as a fluorogenic photo-click reaction for photo-affinity labeling. Chemical Science 2023, 14 (13), 3630.

[76] Zhou, Y.; Remón, J.; Gracia, J.; Jiang, Z.; Pinilla, J. L.; Hu, C.; Suelves, I. Toward developing more sustainable marine biorefineries: A novel ‘sea-thermal’ process for biofuels production from microalgae. Energy Conversion and Management 2022, 270,

[77] Zhou, Y.; Liu, L.; Li, M.; Hu, C. Algal biomass valorisation to high-value chemicals and bioproducts: Recent advances, opportunities and challenges. Bioresource Technology 2022, 344,

[78] Zhao, J.; Yao, F.; Hu, C. Enhancing enzymatic hydrolysis efficiency of crop straws via tetrahydrofuran/water co-solvent pretreatment. Bioresource Technology 2022, 358,

[79] Zhang, Y.; Lv, C.; Hu, C.; Su, Z. Mechanistic Study of Asymmetric Alkynylation of Isatin-Derived Ketimine Mediated by a Copper/Guanidine Catalyst. Journal of Organic Chemistry 2022, 87 (17), 11693.

[80] Zhang, Q.; Xu, S.; Cao, Y.; Ruan, R.; Clark, J. H.; Hu, C.; Tsang, D. C. W. Sustainable production of gluconic acid and glucuronic acid via microwave-assisted glucose oxidation over low-cost Cu-biochar catalysts. Green Chemistry 2022, 24 (17), 6657.

[81] Yao, F.; Xu, S.; Jiang, Z.; Zhao, J.; Hu, C. The inhibition of p-hydroxyphenyl hydroxyl group in residual lignin on enzymatic hydrolysis of cellulose and its underlying mechanism. Bioresource Technology 2022, 346,

[82] Yang, H.; Zeng, Y.; Zhou, Y.; Du, X.; Li, D.; Hu, C. One-step synthesis of highly active and stable Ni-ZrO2 catalysts for the conversion of methyl laurate to alkanes. Journal of Catalysis 2022, 413, 297.

[83] Xu, S.; Xiao, Y.; Zhang, W.; Liao, S.; Yang, R.; Li, J.; Hu, C. Relay catalysis of copper-magnesium catalyst on efficient valorization of glycerol to glycolic acid. Chemical Engineering Journal 2022, 428,

[84] Xu, S.; Xiao, Y.; Li, J.; Zhang, W.; Hu, C. Oligomer-first mechanism in the transformation of biomass derivatives selectively to produce D-lactic acid. Chemical Engineering Journal 2022, 432,

[85] Xu, S.; Tian, Q.; Xiao, Y.; Zhang, W.; Liao, S.; Li, J.; Hu, C. Regulating the competitive reaction pathway in glycerol conversion to lactic acid/glycolic acid selectively. Journal of Catalysis 2022, 413, 407.

[86] Xiao, Y.; Liao, S.; Xu, S.; Li, J.; Lu, Z.; Hu, C. Selective transformation of typical sugars to lactic acid catalyzed by dealuminated ZSM-5 supported erbium. Renewable Energy 2022, 187, 551.

[87] Xiao, Y.; Chen, S.; Li, J.; Lu, Z.; Hu, C. Cooperative roles of Sn(IV) and Cu(II) for efficient transformation of biomass-derived acetol towards lactic acid production. Science of the Total Environment 2022, 833,

[88] Wang, Y.; Wurzer, C.; Wang, W.; Liu, Y.; Liu, L.; Lv, X.; Mašek, O.; Hu, C. Enhancing the production of small molecular products from pubescens via stepwise pyrolysis process. Journal of Analytical and Applied Pyrolysis 2022, 168,

[89] Wang, Y.; Li, L.; Cui, C.; Da. Costa, P.; Hu, C. The effect of adsorbed oxygen species on carbon-resistance of Ni-Zr catalyst modified by Al and Mn for dry reforming of methane. Catalysis Today 2022, 384-386, 257.

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[92] Wang, M.; Lv, C.; Hu, C.; Su, Z. Origin of enantioselectivity and product-distribution control in isocyanide-based multicomponent reaction catalysed by chiral N, N'-dioxide-Mg(II) complex. Molecular Catalysis 2022, 524,

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[95] Sun, C.; Swirk Da Costa, K.; Wang, Y.; Li, L.; Fabbiani, M.; Hulea, V.; R➢nning, M.; Hu, C.; Da Costa, P. Unraveling catalytic properties by yttrium promotion on mesoporous SBA-16 supported nickel catalysts towards CO2 methanation. Fuel 2022, 317,

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[99] Ma, Y.; Liao, Y.; Jiang, Z.; Sun, Q.; Guo, X.; Zhang, W.; Hu, C.; Luque, R.; Shi, B.; Sels, B. F. Solvent effect on the production of spherical lignin nanoparticles. Green Chemistry 2022, 25 (3), 993.

[100] Luo, S.; He, Y.; Cui, R.; Fu, C.; Su, S. J.; Zhou, L.; Lu, Z.; Huang, Y.; Liu, Y.; Hu, C. Single-component exciplex hosts for OLED application. Organic Electronics 2022, 103,

[101] Liu, Y.; Wang, W.; Wang, Y.; Liu, L.; Li, G.; Hu, C. Enhanced pyrolysis of lignocellulosic biomass by room-temperature dilute sulfuric acid pretreatment. Journal of Analytical and Applied Pyrolysis 2022, 166,

[102] Liu, X.; Xie, M.; Hu, Y.; Li, S.; Nie, S.; Zhang, A.; Wu, H.; Li, C.; Xiao, Z.; Hu, C. Facile preparation of lignin nanoparticles from waste Camellia oleifera shell: The solvent effect on the structural characteristic of lignin nanoparticles. Industrial Crops and Products 2022, 183,

[103] Liao, S.; Tian, Q.; Xiao, Y.; Qin, D.; Li, J.; Hu, C. Glycerol Valorization Towards Glycolic Acid Production Over Cu-Based Biochar Catalyst. ChemSusChem 2022, 15 (23),

[104] Li, L.; Zeng, W.; Song, M.; Wu, X.; Li, G.; Hu, C. Research Progress and Reaction Mechanism of CO2 Methanation over Ni-Based Catalysts at Low Temperature: A Review. Catalysts 2022, 12 (2),

[105] Li, J.; Yang, R.; Xu, S.; Zhou, C.; Xiao, Y.; Hu, C.; Tsang, D. C. W. Biomass-derived polyols valorization towards glycolic acid production with high atom-economy. Applied Catalysis B: Environmental 2022, 317,

[106] Lei, X.; Xin, H.; Du, X.; Yang, H.; Zeng, Y.; Zhou, L.; Juan, C.; Zhang, H.; Li, D.; Hu, C. Efficiency conversion of jatropha oil into high-quality biofuel over the innovative Ni-Mo2N based catalyst. Fuel 2022, 324,

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[108] Hu, Y.; Zhang, Y.; Fu, X.; Tang, D.; Li, H.; Hu, P.; Zhu, L.; Hu, C. Insights into the NaCl-Induced Formation of Soluble Humins during Fructose Dehydration to 5-Hydroxymethylfurfural. Industrial and Engineering Chemistry Research 2022, 61 (17), 5786.

[109] Hu, Y.; Li, H.; Hu, P.; Li, L.; Wu, D.; Xue, Z.; Zhu, L.; Hu, C. Probing the effects of fructose concentration on the evolution of humins during fructose dehydration. Reaction Chemistry and Engineering 2022, 8 (1), 175.

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[111] He, T.; Deng, L.; Lai, B.; Xu, S.; Wang, L.; Zhang, Y.; Zheng, D.; Hu, C. The performance of Fe2+/ClO− system in advanced removal of fulvic acid under mild conditions. Journal of Environmental Chemical Engineering 2022, 10 (3),

[112] He, J.; Tang, D.; Hu, C.; Luo, Y.; Kim, C. K.; Su, Z. Mechanistic study on the depolymerization of typical lignin-derived oligomers catalyzed by Pd/NbOPO4. Molecular Catalysis 2022, 528,

[113] Gao, G.; Remón, J.; Jiang, Z.; Yao, L.; Hu, C. Selective hydrogenation of furfural to furfuryl alcohol in water under mild conditions over a hydrotalcite-derived Pt-based catalyst. Applied Catalysis B: Environmental 2022, 309,

[114] Fu, S.; Li, D.; Liu, T.; Liu, L.; Yang, H.; Hu, C. Mechanism Insight into Catalytic Performance of Ni12P5 over Ni2P toward the Catalytic Deoxygenation of Butyric Acid. Catalysts 2022, 12 (5),

[115] Feng, S.; Liu, X.; Su, Z.; Li, G.; Hu, C. Low temperature catalytic hydrodeoxygenation of lignin-derived phenols to cyclohexanols over the Ru/SBA-15 catalyst. RSC Advances 2022, 12 (15), 9352.

[116] Du, X.; Zhang, R.; Li, D.; Hu, C.; Garcia, H. Molybdenum carbide as catalyst in biomass derivatives conversion. Journal of Energy Chemistry 2022, 73, 68.

[117] Du, X.; Peng, Y.; Albero, J.; Li, D.; Hu, C.; García, H. Synthetic Fuels from Biomass: Photocatalytic Hydrodecarboxylation of Octanoic Acid by Ni Nanoparticles Deposited on TiO2. ChemSusChem 2022, 15 (2),

[118] Du, X.; Peng, L.; Hu, J.; Peng, Y.; Primo, A.; Li, D.; Albero, J.; Hu, C.; García, H. Synergistic effect of Cu and Fe small nanoparticles supported on porous N-doped graphitic framework for selective electrochemical CO2 reduction at low overpotential. Nanoscale 2022, 14 (32), 11583.

[119] Du, X.; Liu, J.; Li, D.; Xin, H.; Lei, X.; Zhang, R.; Zhou, L.; Yang, H.; Zeng, Y.; Zhang, H.; et al. Structural and electronic effects boosting Ni-doped Mo2C catalyst toward high-efficiency C[sbnd]O/C[sbnd]C bonds cleavage. Journal of Energy Chemistry 2022, 75, 109.

[120] Du, X.; Lei, X.; Zhou, L.; Peng, Y.; Zeng, Y.; Yang, H.; Li, D.; Hu, C.; Garcia, H. Bimetallic Ni and Mo Nitride as an Efficient Catalyst for Hydrodeoxygenation of Palmitic Acid. ACS Catalysis 2022, 12 (8), 4333.

[121] Chen, S.; Xu, S.; Ge, C.; Hu, C. Mechanistic Investigations of the Synthesis of Lactic Acid from Glycerol Catalyzed by an Iridium–NHC Complex. Processes 2022, 10 (4),

[122] Albonetti, S.; Hu, C.; Saravanamurugan, S. Preface to Special Issue on Green Conversion of HMF. ChemSusChem 2022, 15 (13),

[123] Zhou, Y.; Liu, L.; Li, G.; Hu, C. Insights into the Influence of ZrO2 Crystal Structures on Methyl Laurate Hydrogenation over Co/ZrO2 Catalysts. ACS Catalysis 2021, 11 (12), 7099.

[124] Zhou, Y.; Li, M.; Chen, Y.; Hu, C. Conversion of polysaccharides in Ulva prolifera to valuable chemicals in the presence of formic acid. Journal of Applied Phycology 2021, 33 (1), 101.

[125] Zhou, K.; Du, X.; Zhou, L.; Yang, H.; Lei, X.; Zeng, Y.; Li, D.; Hu, C. The deoxygenation of jatropha oil to high quality fuel via the synergistic catalytic effect of ni, w2c and wc species. Catalysts 2021, 11 (4),

[126] Zhang, W.; Xu, S.; Xiao, Y.; Qin, D.; Li, J.; Hu, C. The insights into the catalytic performance of rare earth metal ions on lactic acid formation from biomass via microwave heating. Chemical Engineering Journal 2021, 421,

[127] Zhang, R.; Zhou, Y.; Hu, C. Study on the pyrolysis behaviour of the macroalga Ulva prolifera. Journal of Applied Phycology 2021, 33 (1), 91.

[128] Yang, H.; Qi, T.; Xiang, B.; Xie, H.; Liu, L.; Huang, Z.; Yang, H. Q.; Hu, C. Theoretical Insights into the Cooperative Catalytic Mechanism of a PW-Containing Keggin Heteropolyacid Anion and Ethanol toward Conversion of Fructose into 5-Ethoxymethylfurfural in Ethanol Solution. ACS Sustainable Chemistry and Engineering 2021, 9 (44), 14789.

[129] Yang, H.; Du, X.; Lei, X.; Zhou, K.; Tian, Y.; Li, D.; Hu, C. Unraveling enhanced activity and coke resistance of Pt-based catalyst in bio-aviation fuel refining. Applied Energy 2021, 301,

[130] Xu, S.; He, T.; Li, J.; Huang, Z.; Hu, C. Enantioselective synthesis of D-lactic acid via chemocatalysis using MgO: Experimental and molecular-based rationalization of the triose's reactivity and preliminary insights with raw biomass. Applied Catalysis B: Environmental 2021, 292,

[131] Xin, H.; Liu, Y.; Hu, C.; Lercher, J. A. Electronic impact of Ni2P nanoparticle size on hydrogenation rates. Journal of Catalysis 2021, 401, 129.

[132] Xiao, Y.; Xu, S.; Zhang, W.; Li, J.; Hu, C. One-pot chemo-catalytic conversion of glucose to methyl lactate over In/γ-Al2O3 catalyst. Catalysis Today 2021, 365, 249.

[133] Wang, Y.; Zhao, Q.; Li, L.; Hu, C.; Da Costa, P. Dry reforming of methane over Ni–ZrOx catalysts doped by manganese: On the effect of the stability of the structure during time on stream. Applied Catalysis A: General 2021, 617,

[134] Wang, Y.; Wang, Y.; Zhao, Q.; Li, L.; Hu, C. The activation of methane by Ni-Cu/MoOx for the synthesis of ethanol. Journal of Chemical Sciences 2021, 133 (1),

[135] Wang, Y.; Wang, Y.; Li, L.; Cui, C.; Liu, X.; Da. Costa, P.; Hu, C. Syngas Production via CO2Reforming of Methane over Aluminum-Promoted NiO-10Al2O3-ZrO2Catalyst. ACS Omega 2021, 6 (34), 22383.

[136] Wang, Y.; Wang, Y.; Da Costa, P.; Hu, C. Syngas production by dry methane reforming over Mg doped NiO-ZrO2 catalysts. In Materials Science Forum, 2021; Vol. 1016 MSF, pp 1585. DOI: 10.4028/www.scientific.net/MSF.1016.1585.

[137] Wang, W.; Liu, Y.; Wang, Y.; Liu, L.; Hu, C. Effect of nickel salts on the production of biochar derived from alkali lignin: properties and applications. Bioresource Technology 2021, 341,

[138] Wang, W.; Liu, Y.; Wang, Y.; Liu, L.; Hu, C. Effect of Ni(NO3)2 pretreatment on the pyrolysis of organsolv lignin derived from corncob residue. Processes 2021, 9 (1), 1.

[139] Świrk, K.; Wang, Y.; Hu, C.; Li, L.; Costa, P. D.; Delahay, G. Novel preparation of Cu and Fe zirconia supported catalysts for selective catalytic reduction of NO with NH3. Catalysts 2021, 11 (1), 1.

[140] Sun, C.; Świrk Da Costa, K.; Wang, Y.; Scheidl, K. S.; Breiby, D. W.; R➢nning, M.; Hu, C.; Da Costa, P. Tailoring the yttrium content in Ni-Ce-Y/SBA-15 mesoporous silicas for CO2 methanation. Catalysis Today 2021, 382, 104.

[141] Summa, P.; Świrk Da Costa, K.; Wang, Y.; Samojeden, B.; R➢nning, M.; Hu, C.; Motak, M.; Da Costa, P. Effect of cobalt promotion on hydrotalcite-derived nickel catalyst for CO2 methanation. Applied Materials Today 2021, 25,

[142] Su, Z.; Hu, C. Three-Membered Rings With Two Heteroatoms Including Other Elements. In Comprehensive Heterocyclic Chemistry IV, 2021; pp 683.

[143] Si, Z. B.; Xiong, J. S.; Qi, T.; Yang, H. M.; Min, H. Y.; Yang, H. Q.; Hu, C. W. Theoretical study on molecular mechanism of aerobic oxidation of 5-hydroxymethylfurfural to 2,5-diformyfuran catalyzed by VO2+with counterpart anion inN,N-dimethylacetamide solution. RSC Advances 2021, 11 (63), 39888.

[144] Meng, X.; Wang, M.; Hu, C.; Su, Z. Asymmetric [2 + 2] cycloaddition of isatin with ketene catalyzed by N, N'-dioxide-Sc(III) complex: Mechanism and selectivity. Molecular Catalysis 2021, 510,

[145] Lv, C.; Meng, X.; Wang, M.; Zhang, Y.; Hu, C.; Kim, C. K.; Su, Z. Mechanism and Selectivity of Cyclopropanation of 3-Alkenyl-oxindoles with Sulfoxonium Ylides Catalyzed by a Chiral N, N′-Dioxide-Mg(II) Complex. Journal of Organic Chemistry 2021, 86 (17), 11683.

[146] Liu, Y.; Wang, Y.; Fu, X.; Li, Q.; Wang, W.; Hu, C. Effect of MgCl2 solution pretreatment on pubescens conversion at room temperature. Renewable Energy 2021, 171, 287.

[147] Liu, X.; Bouxin, F. P.; Fan, J.; Gammons, R.; Budarin, V. L.; Hu, C.; Clark, J. H. Effect of metal triflates on the microwave-assisted catalytic hydrogenolysis of birch wood lignin to monophenolic compounds. Industrial Crops and Products 2021, 167,

[148] Liu, X.; Bouxin, F. P.; Fan, J.; Budarin, V. L.; Hu, C.; Clark, J. H. Microwave-assisted catalytic depolymerization of lignin from birch sawdust to produce phenolic monomers utilizing a hydrogen-free strategy. Journal of Hazardous Materials 2021, 402,

[149] Liu, L. J.; Wang, Z. M.; Fu, S.; Si, Z. B.; Huang, Z.; Liu, T. H.; Yang, H. Q.; Hu, C. W. Catalytic mechanism for the isomerization of glucose into fructose over an aluminium-MCM-41 framework. Catalysis Science and Technology 2021, 11 (4), 1537.

[150] Liu, L.; Zhou, Y.; Guo, L.; Li, G.; Hu, C. Production of Nitrogen-Containing Compounds via the Conversion of Natural Microalgae from Water Blooms Catalyzed by ZrO2. ChemSusChem 2021, 14 (18), 3935.

[151] Liu, L.; Liu, Y.; Wang, W.; Wang, Y.; Li, G.; Hu, C. Pyrolysis of high-ash natural microalgae from water blooms: Effects of acid pretreatment. Toxins 2021, 13 (8),

[152] Li, L.; Wang, Y.; Zhao, Q.; Hu, C. The effect of si on co2 methanation over ni-xsi/zro2 catalysts at low temperature. Catalysts 2021, 11 (1), 1.

[153] Jiang, Z.; Xu, S.; Ding, W.; Gao, M.; Fan, J.; Hu, C.; Shi, B.; Clark, J. H. Advanced masking agent for leather tanning from stepwise degradation and oxidation of cellulose. Green Chemistry 2021, 23 (11), 4044.

[154] Jiang, Z.; Ma, Y.; Guo, X.; Remón, J.; Tsang, D. C. W.; Hu, C.; Shi, B. Sustainable production of lignin micro-/nano-particles (LMNPs) from biomass: Influence of the type of biomass on their self-assembly capability and physicochemical properties. Journal of Hazardous Materials 2021, 403,

[155] Jiang, Z.; Gao, M.; Remón, J.; Ding, W.; Hu, C.; Shi, B. On the development of chrome-free tanning agents: an advanced Trojan horse strategy using ‘Al-Zr-oligosaccharides’ produced by the depolymerization and oxidation of biomass. Green Chemistry 2021, 23 (7), 2640.

[156] Jiang, Z.; Gao, M.; Ding, W.; Huang, C.; Hu, C.; Shi, B.; Tsang, D. C. W. Selective degradation and oxidation of hemicellulose in corncob to oligosaccharides: From biomass into masking agent for sustainable leather tanning. Journal of Hazardous Materials 2021, 413,

[157] He, J.; Tang, D.; Hu, C.; Su, Z. Guanidine–amide-catalyzed aza-henry reaction of isatin-derived ketimines: Origin of selectivity and new catalyst design. Molecules 2021, 26 (7),

[158] Guo, L.; Liu, L.; Pang, C.; Li, G.; Hu, C. Direct hydroxylation of 1,4-Dichlorobenzene to 2,5-Dichlorophenol over Activated Carbon Catalysts. ChemistrySelect 2021, 6 (2), 239.

[159] Gao, G.; Jiang, Z.; Hu, C. Selective Hydrogenation of the Carbonyls in Furfural and 5-Hydroxymethylfurfural Catalyzed by PtNi Alloy Supported on SBA-15 in Aqueous Solution Under Mild Conditions. Frontiers in Chemistry 2021, 9,

[160] Fu, S.; Wang, Z. M.; Liu, L. J.; Liu, T. H.; Li, D.; Yang, H. Q.; Hu, C. W. Theoretical insight into the deoxygenation molecular mechanism of butyric acid catalyzed by a Ni12P6cluster. Catalysis Science and Technology 2021, 11 (19), 6425.

[161] Feng, S.; Liu, X.; Fan, J.; Hu, C.; Clark, J. H. Unexpected Formation of Organic Siloxanes alongside Ethylphenols in the Catalytic Hydrogenation of Waste Enzymatic Lignin. Advanced Energy and Sustainability Research 2021, 2 (10),

[162] Du, X.; Zhou, K.; Zhou, L.; Lei, X.; Yang, H.; Li, D.; Hu, C. Efficient catalytic conversion of jatropha oil to high grade biofuel on Ni-Mo2C/MCM-41 catalysts with tuned surface properties. Journal of Energy Chemistry 2021, 61, 425.

[163] Du, X.; Liang, W.; Hao, X.; Zhou, K.; Yang, H.; Lei, X.; Li, D.; Hu, C. The effect of support on nickel phosphide catalysts for one-pot conversion of jatropha oil into high grade hydrocarbons. Catalysis Today 2021, 367, 83.

[164] Cui, C.; Wang, Y.; Du, X.; Li, L.; Song, M.; Zeng, W.; Li, G.; Hu, C. Carbon resistance of xNi/HTASAO5 catalyst for the production of H2 via CO2 reforming of methane. International Journal of Hydrogen Energy 2021, 46 (40), 20835.

[165] Zuo, Y.; Meng, X.; Hu, C.; Li, J.; Su, Z. Mechanism study on asymmetric Michael addition reaction between alkynone and α-angelica lactone catalyzed by chiral N, N'-dioxide-Sc(III) complex. Catalysis Today 2020, 355, 635.

[166] Zhu, L.; Fu, X.; Hu, Y.; Hu, C. Controlling the Reaction Networks for Efficient Conversion of Glucose into 5-Hydroxymethylfurfural. ChemSusChem 2020, 13 (18), 4812.

[167] Zhou, Y.; Liu, X.; Yu, P.; Hu, C. Temperature-tuned selectivity to alkanes or alcohol from ethyl palmitate deoxygenation over zirconia-supported cobalt catalyst. Fuel 2020, 278,

[168] Zhou, Y.; Hu, C. Catalytic thermochemical conversion of algae and upgrading of algal oil for the production of high-grade liquid fuel: A review. Catalysts 2020, 10 (2),

[169] Zhou, Y.; Chen, Y.; Li, M.; Hu, C. Production of high-quality biofuel via ethanol liquefaction of pretreated natural microalgae. Renewable Energy 2020, 147, 293.

[170] Zhou, C.; Xiao, Y.; Xu, S.; Li, J.; Hu, C. γ-Valerolactone Production from Furfural Residue with Formic Acid as the Sole Hydrogen Resource via an Integrated Strategy on Au-Ni/ZrO2. Industrial and Engineering Chemistry Research 2020, 59 (39), 17228.

[171] Zhao, Q.; Wang, Y.; Wang, Y.; Li, L.; Zeng, W.; Li, G.; Hu, C. Steam reforming of CH4 at low temperature on Ni/ZrO2 catalyst: Effect of H2O/CH4 ratio on carbon deposition. International Journal of Hydrogen Energy 2020, 45 (28), 14281.

[172] Zhao, Q.; Wang, Y.; Li, G.; Hu, C. CeZrOx promoted water-gas shift reaction under steam–methane reforming conditions on Ni-HTASO5. Catalysts 2020, 10 (10), 1.

[173] Yao, F.; Shen, F.; Wan, X.; Hu, C. High yield and high concentration glucose production from corncob residues after tetrahydrofuran + H2O co-solvent pretreatment and followed by enzymatic hydrolysis. Renewable and Sustainable Energy Reviews 2020, 132,

[174] Xu, S.; Wu, Y.; Li, J.; He, T.; Xiao, Y.; Zhou, C.; Hu, C. Directing the Simultaneous Conversion of Hemicellulose and Cellulose in Raw Biomass to Lactic Acid. ACS Sustainable Chemistry and Engineering 2020, 8 (10), 4244.

[175] Xiong, X.; Yu, I. K. M.; Tsang, D. C. W.; Chen, L.; Su, Z.; Hu, C.; Luo, G.; Zhang, S.; Ok, Y. S.; Clark, J. H. Study of glucose isomerisation to fructose over three heterogeneous carbon-based aluminium-impregnated catalysts. Journal of Cleaner Production 2020, 268,

[176] Xiong, J.; Li, G.; Hu, C. Treatment of methylene blue by mesoporous Fe/SiO2 prepared from rice husk pyrolytic residues. Catalysis Today 2020, 355, 529.

[177] Xin, H.; Yang, H.; Lei, X.; Du, X.; Zhou, K.; Li, D.; Hu, C. Ni-Fe Catalysts Supported on γ-Al2O3/HZSM-5 for Transformation of Palmitic Acid into Hydrocarbon Fuel. Industrial and Engineering Chemistry Research 2020, 59 (39), 17373.

[178] Wang, Y.; Zhao, Q.; Wang, Y.; Hu, C.; Da Costa, P. One-Step Synthesis of Highly Active and Stable Ni-ZrOxfor Dry Reforming of Methane. Industrial and Engineering Chemistry Research 2020, 59 (25), 11441.

[179] Wang, Y.; Liu, Y.; Wang, W.; Liu, L.; Hu, C. Torrefaction at 200 °C of pubescens pretreated with AlCl3 aqueous solution at room temperature. ACS Omega 2020, 5 (42), 27709.

[180] Wang, M.; Meng, X.; Hu, C.; Su, Z. Selectivity control in inverse electron demand Diels–Alder reaction of o-Quinone methides catalyzed by chiral N,N′-Dioxide–Sc(III) complex. Molecular Catalysis 2020, 498,

[181] Su, Z.; Hu, C.; Shahzad, N.; Kim, C. K. Asymmetric cyanation of activated olefins with ethyl cyanoformate catalyzed by ti(IV)-catalyst: A theoretical study. Catalysts 2020, 10 (9), 1.

[182] Qi, T.; Si, Z. B.; Liu, L. J.; Yang, H. M.; Huang, Z.; Yang, H. Q.; Hu, C. W. Mechanistic study of cellobiose conversion to 5-hydroxymethylfurfural catalyzed by a Br➢nsted acid with counteranions in an aqueous solution. Physical Chemistry Chemical Physics 2020, 22 (17), 9349.

[183] Qi, T.; Huang, Z.; Xie, H.; Yang, H. M.; Si, Z. B.; Lyu, Y. J.; Liu, L. J.; Zhang, J. F.; Yang, H. Q.; Hu, C. W. Cooperative interaction of sodium and chlorine ions with β-cellobiose in aqueous solution from quantum mechanics and molecular dynamics. Cellulose 2020, 27 (12), 6793.

[184] Luo, Y.; Li, D.; Li, R.; Li, Z.; Hu, C.; Liu, X. Roles of water and aluminum sulfate for selective dissolution and utilization of hemicellulose to develop sustainable corn stover-based biorefinery. Renewable and Sustainable Energy Reviews 2020, 122,

[185] Liu, Z.; Zhu, L.; Hu, C. High-efficiency synthesis of 5-hydroxymethylfurfural from fructose over highly sulfonated organocatalyst. Industrial and Engineering Chemistry Research 2020, 59 (39), 17218.

[186] Liu, Y.; Wang, Y.; Wang, W.; Liu, L.; Hu, C. Effects of MgCl2Solution Pretreatment at Room Temperature on the Pyrolytic Behavior of Pubescens and the Properties of Bio-oil Obtained. Energy and Fuels 2020, 34 (10), 12665.

[187] Liu, X.; Feng, S.; Fang, Q.; Jiang, Z.; Hu, C. Reductive catalytic fractionation of lignin in birch sawdust to monophenolic compounds with high selectivity. Molecular Catalysis 2020, 495,

[188] Liu, X.; Bouxin, F. P.; Fan, J.; Budarin, V. L.; Hu, C.; Clark, J. H. Recent Advances in the Catalytic Depolymerization of Lignin towards Phenolic Chemicals: A Review. ChemSusChem 2020, 13 (17), 4296.

[189] Liu, L. J.; Wang, Z. M.; Lyu, Y. J.; Zhang, J. F.; Huang, Z.; Qi, T.; Si, Z. B.; Yang, H. Q.; Hu, C. W. Catalytic mechanisms of oxygen-containing groups over vanadium active sites in an Al-MCM-41 framework for production of 2,5-diformylfuran from 5-hydroxymethylfurfural. Catalysis Science and Technology 2020, 10 (1), 278.

[190] Li, Z.; Luo, Y.; Wang, X.; Jiang, Z.; Xu, S.; Hu, C. The effect of sodium chloride concentration on the mutarotation and structure of D-xylose in water: Experimental and theoretical investigation. Carbohydrate Research 2020, 489,

[191] Li, Z.; Luo, Y.; Jiang, Z.; Fang, Q.; Hu, C. The Promotion Effect of NaCl on the Conversion of Xylose to Furfural†. Chinese Journal of Chemistry 2020, 38 (2), 178.

[192] Li, J.; Zhang, W.; Xu, S.; Hu, C. The Roles of H2O/Tetrahydrofuran System in Lignocellulose Valorization. Frontiers in Chemistry 2020, 8,

[193] Jiang, Z.; Fang, Q.; Liu, X.; Li, Z.; Hu, C.; Shi, B. Formation and in situ separation of oligomeric products from complete depolymerization of pubescens using a catalyst-free biphasic system. Cellulose 2020, 27 (4), 1951.

[194] Jiang, Z.; Ding, W.; Xu, S.; Remón, J.; Shi, B.; Hu, C.; Clark, J. H. A 'Trojan horse strategy' for the development of a renewable leather tanning agent produced: Via an AlCl3-catalyzed cellulose depolymerization. Green Chemistry 2020, 22 (2), 316.

[195] Huang, Z.; Liu, L. J.; Zhang, J. F.; Yang, H. M.; Fu, S.; Liu, T. H.; Yang, H. Q.; Hu, C. W. Catalytic Mechanisms of Zirconium-Containing Active Sites over the SBA-15 Zeolite Framework for Xylose Conversion to Methyl Lactate. Journal of Physical Chemistry C 2020, 124 (24), 13102.

[196] Fu, X.; Hu, Y.; Zhang, Y.; Zhang, Y.; Tang, D.; Zhu, L.; Hu, C. Solvent Effects on Degradative Condensation Side Reactions of Fructose in Its Initial Conversion to 5-Hydroxymethylfurfural. ChemSusChem 2020, 13 (3), 438.

[197] Fu, X.; Hu, Y.; Zhang, Y.; Zhang, Y.; Tang, D.; Zhu, L.; Hu, C. Solvent Effects on Degradative Condensation Side Reactions of Fructose in Its Initial Conversion to 5-Hydroxymethylfurfural. ChemSusChem 2020, 13 (3), 501.

[198] Fang, Q.; Jiang, Z.; Guo, K.; Liu, X.; Li, Z.; Li, G.; Hu, C. Low temperature catalytic conversion of oligomers derived from lignin in pubescens on Pd/NbOPO4. Applied Catalysis B: Environmental 2020, 263,

[199] Dutta, S.; Yu, I. K. M.; Tsang, D. C. W.; Su, Z.; Hu, C.; Wu, K. C. W.; Yip, A. C. K.; Ok, Y. S.; Poon, C. S. Influence of green solvent on levulinic acid production from lignocellulosic paper waste. Bioresource Technology 2020, 298,

[200] Dutta, S.; Yu, I. K. M.; Tsang, D. C. W.; Fan, J.; Clark, J. H.; Jiang, Z.; Su, Z.; Hu, C.; Poon, C. S. Efficient Depolymerization of Cellulosic Paper Towel Waste Using Organic Carbonate Solvents. ACS Sustainable Chemistry and Engineering 2020, 8 (34), 13100.

[201] Chen, Y.; Zhou, Y.; Zhang, R.; Hu, C. Conversion of saccharides in enteromorpha prolifera to furfurals in the presence of FeCl3. Molecular Catalysis 2020, 484,

[202] Cao, Y.; Chen, S. S.; Tsang, D. C. W.; Clark, J. H.; Budarin, V. L.; Hu, C.; Wu, K. C. W.; Zhang, S. Microwave-assisted depolymerization of various types of waste lignins over two-dimensional CuO/BCN catalysts. Green Chemistry 2020, 22 (3), 725.

[203] Cao, L.; Yu, I. K. M.; Xiong, X.; Tsang, D. C. W.; Zhang, S.; Clark, J. H.; Hu, C.; Ng, Y. H.; Shang, J.; Ok, Y. S. Biorenewable hydrogen production through biomass gasification: A review and future prospects. Environmental Research 2020, 186,

[204] Zhao, P.; Zhou, C.; Li, J.; Xu, S.; Hu, C. Synergistic Effect of Different Species in Stannic Chloride Solution on the Production of Levulinic Acid from Biomass. ACS Sustainable Chemistry and Engineering 2019, 7 (5), 5176.

[205] Zhang, R.; Chen, Y.; Zhou, Y.; Tong, D.; Hu, C. Selective Conversion of Hemicellulose in Macroalgae Enteromorpha prolifera to Rhamnose. ACS Omega 2019, 4 (4), 7023.

[206] Zhang, J. F.; Wang, Z. M.; Lyu, Y. J.; Xie, H.; Qi, T.; Si, Z. B.; Liu, L. J.; Yang, H. Q.; Hu, C. W. Synergistic Catalytic Mechanism of Acidic Silanol and Basic Alkylamine Bifunctional Groups over SBA-15 Zeolite toward Aldol Condensation. Journal of Physical Chemistry C 2019, 123 (8), 4903.

[207] Yu, I. K. M.; Xiong, X.; Tsang, D. C. W.; Ng, Y. H.; Clark, J. H.; Fan, J.; Zhang, S.; Hu, C.; Ok, Y. S. Graphite oxide- and graphene oxide-supported catalysts for microwave-assisted glucose isomerisation in water. Green Chemistry 2019, 21 (16), 4341.

[208] Yang, R.; Du, X.; Zhang, X.; Xin, H.; Zhou, K.; Li, D.; Hu, C. Transformation of Jatropha Oil into High-Quality Biofuel over Ni-W Bimetallic Catalysts. ACS Omega 2019, 4 (6), 10580.

[209] Xu, S.; Li, J.; Li, J.; Wu, Y.; Xiao, Y.; Hu, C. D-Excess-LaA Production Directly from Biomass by Trivalent Yttrium Species. iScience 2019, 12, 132.

[210] Xiong, J.; Li, Y.; Pang, C.; Li, G.; Hu, C. Removal of pollutants in banknote printing wastewater by mesoporous Fe/SiO2 prepared from rice husk pyrolytic residues. Environmental Science and Pollution Research 2019, 26 (16), 16000.

[211] Xin, H.; Zhou, W.; Zhou, K.; Du, X.; Li, D.; Hu, C. Controlling the growth of activated carbon supported nickel phosphide catalysts via adjustment of surface group distribution for hydrodeoxygenation of palmitic acid. Catalysis Today 2019, 319, 182.

[212] Xie, H.; Qi, T.; Lyu, Y. J.; Zhang, J. F.; Si, Z. B.; Liu, L. J.; Zhu, L. F.; Yang, H. Q.; Hu, C. W. Molecular mechanism comparison of decarbonylation with deoxygenation and hydrogenation of 5-hydroxymethylfurfural catalyzed by palladium acetate. Physical Chemistry Chemical Physics 2019, 21 (7), 3795.

[213] Wu, Y.; Chen, H.; Yang, W.; Fan, Y.; Gao, L.; Su, Z.; Hu, C.; Song, Z. Asymmetric retro-[1,4]-Brook rearrangement of 3-silyl allyloxysilanes: Via chirality transfer from silicon to carbon. RSC Advances 2019, 9 (45), 26209.

[214] Wu, P.; Li, J.; He, T.; Hu, C. The direct conversion of hemicelluloses to selectively produce xylose from corn stover catalysed by maleic acid. BioResources 2019, 14 (1), 816.

[215] Wang, Z. M.; Liu, L. J.; Xiang, B.; Wang, Y.; Lyu, Y. J.; Qi, T.; Si, Z. B.; Yang, H. Q.; Hu, C. W. The design and catalytic performance of molybdenum active sites on an MCM-41 framework for the aerobic oxidation of 5-hydroxymethylfurfural to 2,5-diformylfuran. Catalysis Science and Technology 2019, 9 (3), 811.

[216] Wang, Y.; Lv, X.; Li, J.; Li, Q.; Hu, C. Room temperature pretreatment of pubescens by AlCl 3 aqueous solution. Journal of Energy Chemistry 2019, 138.

[217] Wang, Y.; Li, L.; Wang, Y.; Da Costa, P.; Hu, C. Highly carbon-resistant Y doped NiO–ZrOm catalysts for dry reforming of methane. Catalysts 2019, 9 (12),

[218] Wang, J.; Liu, Z.; Li, J.; Song, Z.; Hu, C.; Su, Z. Exo/endo Selectivity Control in Diels-Alder Reactions of Geminal Bis(silyl) Dienes: Theoretical and Experimental Studies. Journal of Organic Chemistry 2019, 84 (7), 3940.

[219] Qi, T.; He, M. F.; Zhu, L. F.; Lyu, Y. J.; Yang, H. Q.; Hu, C. W. Cooperative Catalytic Performance of Lewis and Br➢nsted Acids from AlCl 3 Salt in Aqueous Solution toward Glucose-to-Fructose Isomerization. Journal of Physical Chemistry C 2019, 123 (8), 4879.

[220] Meng, X.; Li, J.; Zuo, Y.; Hu, C.; Su, Z. Theoretical Study on Asymmetric [2 + 2] Cycloaddition of an Alkynone with a Cyclic Enol Silyl Ether Catalyzed by a Chiral N, N′-Dioxide-Zn(II) Complex. Organometallics 2019, 38 (16), 3111.

[221] Luo, Y.; Li, Z.; Li, X.; Liu, X.; Fan, J.; Clark, J. H.; Hu, C. The production of furfural directly from hemicellulose in lignocellulosic biomass: A review. Catalysis Today 2019, 319, 14.

[222] Liu, X.; Jiang, Z.; Feng, S.; Zhang, H.; Li, J.; Hu, C. Catalytic depolymerization of organosolv lignin to phenolic monomers and low molecular weight oligomers. Fuel 2019, 244, 247.

[223] Liu, S.; Fu, X.; Dai, J.; Liu, Z.; Zhu, L.; Hu, C. One-pot synthesis of 2,5-diformylfuran from fructose by bifunctional polyaniline-supported heteropolyacid hybrid catalysts. Catalysts 2019, 9 (5),

[224] Lan, K.; Xu, S.; Li, J.; Hu, C. Recovery of Lactic Acid from Corn Stover Hemicellulose-Derived Liquor. ACS Omega 2019, 4 (6), 10571.

[225] Jiang, Z.; Remón, J.; Li, T.; Budarin, V. L.; Fan, J.; Hu, C.; Clark, J. H. A one-pot microwave-assisted NaCl–H2O/GVL solvent system for cellulose conversion to 5-hydroxymethylfurfural and saccharides with in situ separation of the products. Cellulose 2019, 26 (15), 8383.

[226] Fu, X.; Li, Q.; Hu, C. Identification and structural characterization of oligomers formed from the pyrolysis of biomass. Journal of Analytical and Applied Pyrolysis 2019, 144,

[227] Du, X.; Li, D.; Xin, H.; Zhou, W.; Yang, R.; Zhou, K.; Hu, C. The Conversion of Jatropha Oil into Jet Fuel on NiMo/Al-MCM-41 Catalyst: Intrinsic Synergic Effects between Ni and Mo. Energy Technology 2019, 7 (5),

[228] Dai, J.; Liu, Z.; Hu, Y.; Liu, S.; Chen, L.; Qi, T.; Yang, H.; Zhu, L.; Hu, C. Adjusting the acidity of sulfonated organocatalyst for the one-pot production of 5-ethoxymethylfurfural from fructose. Catalysis Science and Technology 2019, 9 (2), 483.

[229] Dai, J.; Gözaydln, G.; Hu, C.; Yan, N. Catalytic Conversion of Chitosan to Glucosaminic Acid by Tandem Hydrolysis and Oxidation. ACS Sustainable Chemistry and Engineering 2019, 7 (14), 12399.

[230] Zuo, Y.; Yang, N.; Huang, X.; Hu, C.; Su, Z. Mechanism and Origins of Stereoinduction in an Asymmetric Friedel-Crafts Alkylation Reaction of Chalcone Catalyzed by Chiral N, N ′-Dioxide-Sc(III) Complex. Journal of Organic Chemistry 2018, 83 (8), 4628.

[231] Zhou, W.; Xin, H.; Yang, H.; Du, X.; Yang, R.; Li, D.; Hu, C. The deoxygenation pathways of palmitic acid into hydrocarbons on silica-supported Ni12P5 and Ni2P catalysts. Catalysts 2018, 8 (4),

[232] Zhang, J.; Hao, X.; Rowell, N.; Kreouzis, T.; Han, S.; Fan, H.; Zhang, C.; Hu, C.; Zhang, M.; Yu, K. Individual Pathways in the Formation of Magic-Size Clusters and Conventional Quantum Dots. Journal of Physical Chemistry Letters 2018, 9 (13), 3660.

[233] Zhang, H.; Liu, X.; Li, J.; Jiang, Z.; Hu, C. Performances of Several Solvents on the Cleavage of Inter- and Intramolecular Linkages of Lignin in Corncob Residue. ChemSusChem 2018, 11 (9), 1494.

[234] Yao, L.; Wang, Y.; Galvez, M. E.; Hu, C.; Da Costa, P. Ni–Mo2C supported on alumina as a substitute for Ni–Mo reduced catalysts supported on alumina material for dry reforming of methane. Comptes Rendus Chimie 2018, 21 (3-4), 247.

[235] Yao, L.; Galvez, M. E.; Hu, C.; Da Costa, P. Synthesis Gas Production via Dry Reforming of Methane over Manganese Promoted Nickel/Cerium-Zirconium Oxide Catalyst. Industrial and Engineering Chemistry Research 2018, 57 (49), 16645.

[236] Xu, S.; Lan, K.; Li, J.; He, T.; Hu, C. Separation of lactic acid from synthetic solutions and the mixture directly derived from corn stover by aqueous two phase extraction. Separation and Purification Technology 2018, 204, 281.

[237] Wang, Y.; Yao, L.; Wang, Y.; Wang, S.; Zhao, Q.; Mao, D.; Hu, C. Low-Temperature Catalytic CO2 Dry Reforming of Methane on Ni-Si/ZrO2 Catalyst. ACS Catalysis 2018, 8 (7), 6495.

[238] Wang, Y.; Yao, L.; Wang, S.; Mao, D.; Hu, C. Low-temperature catalytic CO2 dry reforming of methane on Ni-based catalysts: A review. Fuel Processing Technology 2018, 169, 199.

[239] Wang, S.; Wang, Y.; Hu, C. The effect of NH3·H2O addition in Ni/SBA-15 catalyst preparation on its performance for carbon dioxide reforming of methane to produce H2. International Journal of Hydrogen Energy 2018, 43 (30), 13921.

[240] Su, Z.; Zuo, Y.; Hu, C. Theoretical Investigation on Direct Vinylogous Aldol Reaction of Isatin Catalyzed by Chiral-N, N’-dioxide Sc(III) Complex. Molecular Catalysis 2018, 453, 22.

[241] Qi, T.; Lyu, Y. J.; Wang, Z. M.; Yang, H. Q.; Hu, C. W. Regular patterns of the effects of hydrogen-containing additives on the formation of CdSe monomer. Physical Chemistry Chemical Physics 2018, 20 (32), 20863.

[242] Pang, C.; Xiong, J.; Li, G.; Hu, C. Direct ring C–H bond activation to produce cresols from toluene and hydrogen peroxide catalyzed by framework titanium in TS-1. Journal of Catalysis 2018, 366, 37.

[243] Lyu, Y. J.; Qi, T.; Yang, H. Q.; Hu, C. W. Performance of edges on carbon for the catalytic hydroxylation of benzene to phenol. Catalysis Science and Technology 2018, 8 (1), 176.

[244] Lv, X.; Li, Q.; Jiang, Z.; Wang, Y.; Li, J.; Hu, C. Structure characterization and pyrolysis behavior of organosolv lignin isolated from corncob residue. Journal of Analytical and Applied Pyrolysis 2018, 115.

[245] Luo, Y.; Xiong, J.; Pang, C.; Li, G.; Hu, C. Direct hydroxylation of benzene to phenol over TS-1 catalysts. Catalysts 2018, 8 (2),

[246] Luo, Y.; Li, Z.; Zuo, Y.; Su, Z.; Hu, C. Effects of γ-Valerolactone/H2O Solvent on the Degradation of pubescens for Its Fullest Utilization. Journal of Agricultural and Food Chemistry 2018, 66 (24), 6094.

[247] Luo, Y.; Fan, J.; Budarin, V. L.; Hu, C.; Clark, J. H.; Matharu, A.; Melo, E. M. D. Toward a Zero-Waste Biorefinery: Confocal Microscopy as a Tool for the Analysis of Lignocellulosic Biomass. ACS Sustainable Chemistry and Engineering 2018, 6 (10), 13185.

[248] Li, X.; Li, J.; Liu, X.; Tian, Q.; Hu, C. The promoting effect of ce on the performance of Au/CexZr1−xO2 for γ-valerolactone production from biomass-based levulinic acid and formic acid. Catalysts 2018, 8 (6),

[249] Li, Q.; Fu, X.; Li, J.; Wang, Y.; Lv, X.; Hu, C. Effect of Heating Rate on Yields and Distribution of Oil Products from the Pyrolysis of Pubescen. Energy Technology 2018, 6 (2), 366.

[250] Li, J.; Su, Z.; Wang, J.; Hu, C. Mechanistic investigations on asymmetric N-H insertion of amines catalyzed by palladium-chiral guanidine complex. Journal of Catalysis 2018, 364, 426.

[251] Li, J.; Meng, X.; Hu, C.; Su, Z. Cooperative Catalysis of Chiral Guanidine and Rh2(OAc)4 in Asymmetric O-H Insertion of Carboxylic Acid: A Theoretical Investigation. Journal of Organic Chemistry 2018,

[252] Li, J.; Lv, X.; Wang, Y.; Li, Q.; Hu, C. Hydrotreatment Upgrading of Bio-oil from Torrefaction of Pubescens in Alcohol over Pd/NbOPO4. ACS Omega 2018, 3 (5), 4836.

[253] Jiang, Z.; Zhao, P.; Li, J.; Liu, X.; Hu, C. Effect of Tetrahydrofuran on the Solubilization and Depolymerization of Cellulose in a Biphasic System. ChemSusChem 2018, 11 (2), 397.

[254] Jiang, Z.; Zhao, P.; Hu, C. Controlling the cleavage of the inter- and intra-molecular linkages in lignocellulosic biomass for further biorefining: A review. Bioresource Technology 2018, 256, 466.

[255] Jiang, Z.; Fan, J.; Budarin, V. L.; Macquarrie, D. J.; Gao, Y.; Li, T.; Hu, C.; Clark, J. H. Mechanistic understanding of salt-assisted autocatalytic hydrolysis of cellulose. Sustainable Energy and Fuels 2018, 2 (5), 936.

[256] Jiang, Z.; Budarin, V. L.; Fan, J.; Remón, J.; Li, T.; Hu, C.; Clark, J. H. Sodium Chloride-Assisted Depolymerization of Xylo-oligomers to Xylose. ACS Sustainable Chemistry and Engineering 2018, 6 (3), 4098.

[257] Zuo, Y.; Su, Z.; Wang, J.; Hu, C. Theoretical study on the mechanism and selectivity of asymmetric cycloaddition reactions of 3-vinylindole catalyzed by chiral N,N’-dioxide-Ni(II) complex. Catalysis Today 2017, 298, 130.

[258] Zhou, Y.; Li, L.; Zhang, R.; Hu, C. Fractional conversion of microalgae from water blooms. Faraday Discussions 2017, 202, 197.

[259] Yao, L.; Wang, Y.; Shi, J.; Xu, H.; Shen, W.; Hu, C. The influence of reduction temperature on the performance of ZrOx/Ni-MnOx/SiO2 catalyst for low-temperature CO2 reforming of methane. Catalysis Today 2017, 281, 259.

[260] Yao, L.; Galvez, M. E.; Hu, C.; Da Costa, P. Mo-promoted Ni/Al2O3 catalyst for dry reforming of methane. International Journal of Hydrogen Energy 2017, 42 (37), 23500.

[261] Xiang, B.; Wang, Y.; Qi, T.; Yang, H. Q.; Hu, C. W. Promotion catalytic role of ethanol on Br➢nsted acid for the sequential dehydration-etherification of fructose to 5-ethoxymethylfurfural. Journal of Catalysis 2017, 352, 586.

[262] Wang, Y.; Xiang, B.; Yang, H. Q.; Hu, C. W. Density Functional Theory Study on the Nucleation and Growth of Ptn Clusters on ?-Al2O3(001) Surface. ACS Omega 2017, 2 (7), 3250.

[263] Wang, J.; Zuo, Y.; Hu, C.; Su, Z. Theoretical and experimental studies on the structure-property relationship of chiral: N, N ′-dioxide-metal catalysts probed by the carbonyl-ene reaction of isatin. Catalysis Science and Technology 2017, 7 (11), 2183.

[264] Tang, J.; Zhu, L.; Fu, X.; Dai, J.; Guo, X.; Hu, C. Insights into the Kinetics and Reaction Network of Aluminum Chloride-Catalyzed Conversion of Glucose in NaCl-H2O/THF Biphasic System. ACS Catalysis 2017, 7 (1), 256.

[265] Su, Z.; He, W.; Wang, J.; Zuo, Y.; Hu, C. Theoretical investigation on donor-acceptor interaction between a carbonyl compound and an: N, N ′-dioxide-Sc(III) complex. RSC Advances 2017, 7 (88), 56054.

[266] Ren, L. K.; Zhu, L. F.; Qi, T.; Tang, J. Q.; Yang, H. Q.; Hu, C. W. Performance of Dimethyl Sulfoxide and Br➢nsted Acid Catalysts in Fructose Conversion to 5-Hydroxymethylfurfural. ACS Catalysis 2017, 7 (3), 2199.

[267] Nan, M.; Luo, Y.; Li, G.; Hu, C. Improvement of the selectivity to aniline in benzene amination over Cu/TS-1 by potassium. RSC Advances 2017, 7 (35), 21974.

[268] Lv, X.; Jiang, Z.; Li, J.; Wang, Y.; Tong, D.; Hu, C. Low-Temperature Torrefaction of Phyllostachys heterocycla cv. pubescens: Effect of Two Torrefaction Procedures on the Composition of Bio-Oil Obtained. ACS Sustainable Chemistry and Engineering 2017, 5 (6), 4869.

[269] Luo, Y.; Li, Z.; Zuo, Y.; Su, Z.; Hu, C. A Simple Two-Step Method for the Selective Conversion of Hemicellulose in Pubescens to Furfural. ACS Sustainable Chemistry and Engineering 2017, 5 (9), 8137.

[270] Luo, Y.; Fan, J.; Budarin, V. L.; Hu, C.; Clark, J. H. Microwave-assisted hydrothermal selective dissolution and utilisation of hemicellulose in Phyllostachys heterocycla cv. Pubescens. Green Chemistry 2017, 19 (20), 4889.

[271] Guo, X.; Tang, J.; Xiang, B.; Zhu, L.; Yang, H.; Hu, C. Catalytic Dehydration of Fructose into 5-Hydroxymethylfurfural by a DMSO-like Polymeric Solid Organocatalyst. ChemCatChem 2017, 9 (16), 3218.

[272] Fu, X.; Dai, J.; Guo, X.; Tang, J.; Zhu, L.; Hu, C. Suppression of oligomer formation in glucose dehydration by CO2 and tetrahydrofuran. Green Chemistry 2017, 19 (14), 3334.

[273] Dai, J.; Zhu, L.; Tang, D.; Fu, X.; Tang, J.; Guo, X.; Hu, C. Sulfonated polyaniline as a solid organocatalyst for dehydration of fructose into 5-hydroxymethylfurfural. Green Chemistry 2017, 19 (8), 1932.

[274] Argyropoulos, D.; Bitter, H.; Brandt-Talbot, A.; Budarin, V.; Chesi, C.; Clark, J.; Coma, M.; Crestini, C.; Dale, B.; Graca, I.; et al. Conversion technologies: General discussion. Faraday Discussions 2017, 199, 371.

[275] Zhu, L.; Dai, J.; Liu, M.; Tang, D.; Liu, S.; Hu, C. Formyl-modified polyaniline for the catalytic dehydration of fructose to 5-hydroxymethylfurfural. ChemSusChem 2016, 9 (16), 2174.

[276] Zhang, R.; Li, L.; Tong, D.; Hu, C. Microwave-enhanced pyrolysis of natural algae from water blooms. Bioresource Technology 2016, 212, 311.

[277] Yu, K.; Liu, X.; Qi, T.; Yang, H.; Whitfield, D. M.; Chen, Q. Y.; Huisman, E. J. C.; Hu, C. General low-Temperature reaction pathway from precursors to monomers before nucleation of compound semiconductor nanocrystals. Nature Communications 2016, 7,

[278] Yi, J.; Luo, Y.; He, T.; Jiang, Z.; Li, J.; Hu, C. High efficient hydrogenation of lignin-derived monophenols to cyclohexanols over Pd/γ-Al2O3 under mild conditions. Catalysts 2016, 6 (1),

[279] Yao, L.; Shi, J.; Xu, H.; Shen, W.; Hu, C. Low-temperature CO2 reforming of methane on Zr-promoted Ni/SiO2 catalyst. Fuel Processing Technology 2016, 144, 1.

[280] Xin, H.; Guo, K.; Li, D.; Yang, H.; Hu, C. Production of high-grade diesel from palmitic acid over activated carbon-supported nickel phosphide catalysts. Applied Catalysis B: Environmental 2016, 187, 375.

[281] Wang, J.; Su, Z.; Yang, N.; Hu, C. Mechanistic Study of the Asymmetric Carbonyl-Ene Reaction between Alkyl Enol Ethers and Isatin Catalyzed by the N,N′-Dioxide-Mg(OTf)2 Complex. Journal of Organic Chemistry 2016, 81 (15), 6444.

[282] Ren, L. K.; Yang, H. Q.; Hu, C. W. Theoretical study of the catalytic oxidation mechanism of 5-hydroxymethylfurfural to 2,5-diformylfuran by PMo-containing Keggin heteropolyacid. Catalysis Science and Technology 2016, 6 (11), 3776.

[283] Qi, T.; Yang, H. Q.; Whitfield, D. M.; Yu, K.; Hu, C. W. Insights into the Mechanistic Role of Diphenylphosphine Selenide, Diphenylphosphine, and Primary Amines in the Formation of CdSe Monomers. Journal of Physical Chemistry A 2016, 120 (6), 918.

[284] Luo, Y.; Yi, J.; Tong, D.; Hu, C. Production of γ-valerolactone via selective catalytic conversion of hemicellulose in pubescens without addition of external hydrogen. Green Chemistry 2016, 18 (3), 848.

[285] Luo, L.; Liu, H.; Li, G.; Hu, C. Partial oxidation of ethylbenzene by H2O2 on VO: X/HZSM-22 catalyst. RSC Advances 2016, 6 (60), 55463.

[286] Liu, Z.; Lin, X.; Yang, N.; Su, Z.; Hu, C.; Xiao, P.; He, Y.; Song, Z. Unique Steric Effect of Geminal Bis(silane) to Control the High Exo-selectivity in Intermolecular Diels-Alder Reaction. Journal of the American Chemical Society 2016, 138 (6), 1877.

[287] Lin, X.; Gan, Z.; Lu, J.; Su, Z.; Hu, C.; Zhang, Y.; Wu, Y.; Gao, L.; Song, Z. Visible light-promoted radical cyclization of silicon-tethered alkyl iodide and phenyl alkyne. An efficient approach to synthesize benzosilolines. Chemical Communications 2016, 52 (36), 6189.

[288] Li, Y.; Zhang, X.; Yang, R.; Li, G.; Hu, C. Removal of dyes from aqueous solutions using activated carbon prepared from rice husk residue. Water Science and Technology 2016, 73 (5), 1122.

[289] Li, D.; Xin, H.; Du, X.; Hao, X.; Liu, Q.; Hu, C. Erratum to: Recent advances for the production of hydrocarbon biofuel via deoxygenation progress (Sci. Bull. (2015) 60(24), 2096-2106, 10.1007/s11434-015-0971-0). Science Bulletin 2016, 61 (3), 263.

[290] Jiang, Z.; Zhang, H.; He, T.; Lv, X.; Yi, J.; Li, J.; Hu, C. Understanding the cleavage of inter- and intramolecular linkages in corncob residue for utilization of lignin to produce monophenols. Green Chemistry 2016, 18 (14), 4109.

[291] Jiang, Z.; Hu, C. Selective extraction and conversion of lignin in actual biomass to monophenols: A review. Journal of Energy Chemistry 2016, 25 (6), 947.

[292] He, T.; Jiang, Z.; Wu, P.; Yi, J.; Li, J.; Hu, C. Fractionation for further conversion: From raw corn stover to lactic acid. Scientific Reports 2016, 6,

[293] Gan, Z.; Chu, Z.; Hu, J.; Su, Z.; Hu, C.; Gao, L.; Song, Z. Tunable reactivity of geminal bis(silyl) enol derivatives leading to selective: exo -IEDDA or Sakurai allylation with a β,γ-unsaturated ketoester. Chemical Communications 2016, 52 (66), 10137.

[294] Dai, J.; Fu, X.; Zhu, L.; Tang, J.; Guo, X.; Hu, C. One-Pot Deoxygenation of Fructose to Furfuryl Alcohol by Sequential Dehydration and Decarbonylation. ChemCatChem 2016, 8 (7), 1379.

[295] Zhang, Y.; Yang, N.; Liu, X.; Guo, J.; Zhang, X.; Lin, L.; Hu, C.; Feng, X. Reversal of enantioselective Friedel-Crafts C3-alkylation of pyrrole by slightly tuning the amide units of N,N′-dioxide ligands. Chemical Communications 2015, 51 (40), 8432.

[296] Zhang, X.; Liu, H.; Li, Y.; Li, G.; Hu, C. Preparation of activated carbon from pyrolytic residue of rice husk and its application for the adsorption of phenol and iodine. Asian Journal of Chemistry 2015, 27 (4), 1513.

[297] Zeng, Y.; Tang, J.; Lian, S.; Tong, D.; Hu, C. Study on the conversion of cyanobacteria of Taihu Lake water blooms to biofuels. Biomass and Bioenergy 2015, 73, 95.

[298] Yao, L.; Shi, J.; Hu, C. The structure, carbon deposition and stability of a ZrOx/Ni-MnOx/SiO2 catalyst for the CO2 reforming of methane. RSC Advances 2015, 5 (109), 90168.

[299] Yang, R.; Li, G.; Hu, C. The preparation of Fe/wood-based activated carbon catalyst for phenol hydroxylation from Fe2+ and Fe3+ precursors. Catalysis Science and Technology 2015, 5 (4), 2486.

[300] Yang, N.; Su, Z.; Feng, X.; Hu, C. Theoretical studies on the asymmetric Baeyer-Villiger oxidation reaction of 4-phenylcyclohexanone with m-chloroperoxobenzoic acid catalyzed by chiral scandium(III)-N,N'-dioxide complexes. Chemistry - A European Journal 2015, 21 (19), 7264.

[301] Yang, H. Q.; Fu, H. Q.; Su, B. F.; Xiang, B.; Xu, Q. Q.; Hu, C. W. Theoretical Study on the Catalytic Reduction Mechanism of NO by CO on Tetrahedral Rh4 Subnanocluster. Journal of Physical Chemistry A 2015, 119 (47), 11548.

[302] Tang, J.; Guo, X.; Zhu, L.; Hu, C. Mechanistic Study of Glucose-to-Fructose Isomerization in Water Catalyzed by [Al(OH)2(aq)]+. ACS Catalysis 2015, 5 (9), 5097.

[303] Su, B. F.; Fu, H. Q.; Yang, H. Q.; Hu, C. W. Catalytic reduction of NO by CO on Rh4+ clusters: A density functional theory study. Catalysis Science and Technology 2015, 5 (6), 3203.

[304] Shi, J.; Yao, L.; Hu, C. Effect of CO2 on the structural variation of Na2WO4/Mn/SiO2 catalyst for oxidative coupling of methane to ethylene. Journal of Energy Chemistry 2015, 24 (4), 394.

[305] Luo, S.; Lin, J.; Zhou, J.; Wang, Y.; Liu, X.; Huang, Y.; Lu, Z.; Hu, C. Novel 1,8-naphthalimide derivatives for standard-red organic light-emitting device applications. Journal of Materials Chemistry C 2015, 3 (20), 5259.

[306] Liu, Y.; Yao, L.; Xin, H.; Wang, G.; Li, D.; Hu, C. The production of diesel-like hydrocarbons from palmitic acid over HZSM-22 supported nickel phosphide catalysts. Applied Catalysis B: Environmental 2015, 174-175, 504.

[307] Li, Y.; Zhang, X.; Yang, R.; Li, G.; Hu, C. The role of H3PO4 in the preparation of activated carbon from NaOH-treated rice husk residue. RSC Advances 2015, 5 (41), 32626.

[308] Li, X.; Tong, D.; Hu, C. Efficient production of biodiesel from both esterification and transesterification over supported SO42--MoO3-ZrO2-Nd2O3/SiO2 catalysts. Journal of Energy Chemistry 2015, 24 (4), 463.

[309] Li, L. L.; Zhang, R.; Tong, D. M.; Hu, C. W. Fractional Pyrolysis of Algae and Model Compounds. Chinese Journal of Chemical Physics 2015, 28 (4), 525.

[310] Li, D.; Xin, H.; Du, X.; Hao, X.; Liu, Q.; Hu, C. Recent advances for the production of hydrocarbon biofuel via deoxygenation progress. Science Bulletin 2015, 60 (24), 2096.

[311] Jiang, Z.; Yi, J.; Li, J.; He, T.; Hu, C. Promoting effect of sodium chloride on the solubilization and depolymerization of cellulose from raw biomass materials in water. ChemSusChem 2015, 8 (11), 1901.

[312] Fu, H. Q.; Su, B. F.; Yang, H. Q.; Hu, C. W. Theoretical insight into the C-H and C-C scission mechanism of ethane on a tetrahedral Pt4 subnanocluster. RSC Advances 2015, 5 (51), 40978.

[313] Chen, S.; Yang, H.; Hu, C. Theoretical study on the reaction mechanisms of the aldol-condensation of 5-hydroxymethylfurfural with acetone catalyzed by MgO and MgO+. Catalysis Today 2015, 245, 100.

[314] Yu, T.; Zhang, Q.; Xia, S.; Li, G.; Hu, C. Direct amination of benzene to aniline by reactive distillation method over copper doped hierarchical TS-1 catalyst. Catalysis Science and Technology 2014, 4 (3), 639.

[315] Yu, T.; Yang, R.; Xia, S.; Li, G.; Hu, C. Direct amination of benzene to aniline with H2O2 and NH3·H2O over Cu/SiO2 catalyst. Catalysis Science and Technology 2014, 4 (9), 3159.

[316] Yu, K.; Liu, X.; Chen, Q. Y.; Yang, H.; Yang, M.; Wang, X.; Wang, X.; Cao, H.; Whitfield, D. M.; Hu, C.; et al. Mechanistic study of the role of primary amines in precursor conversions to semiconductor nanocrystals at low temperature. Angewandte Chemie - International Edition 2014, 53 (27), 6898.

[317] Ye, X.; Sun, X.; Huang, Z.; Yang, N.; Su, Z.; Hu, C.; Song, Z. Regioselective 1,4- over 1,2-addition of 3,3-bis(silyl) allyloxy lithium to enals, enones and enoates. the remarkable α-effect of silicon. Organic and Biomolecular Chemistry 2014, 12 (19), 3021.

[318] Xia, S.; Yu, T.; Liu, H.; Li, G.; Hu, C. One step C-N bond formation from alkylbenzene and ammonia over Cu-modified TS-1 zeolite catalyst. Catalysis Science and Technology 2014, 4 (9), 3108.

[319] Wu, Y.; Li, L.; Li, H.; Gao, L.; Xie, H.; Zhang, Z.; Su, Z.; Hu, C.; Song, Z. Regioselective nucleophilic addition of organometallic reagents to 3-geminal bis(silyl) N-acyl pyridinium. Organic Letters 2014, 16 (7), 1880.

[320] Luo, Y.; Hu, L.; Tong, D.; Hu, C. Selective dissociation and conversion of hemicellulose in Phyllostachys heterocycla cv. var. pubescens to value-added monomers via solvent-thermal methods promoted by AlCl3. RSC Advances 2014, 4 (46), 24194.

[321] Liu, Y.; Zhu, L.; Tang, J.; Liu, M.; Cheng, R.; Hu, C. One-pot, one-step synthesis of 2,5-diformylfuran from carbohydrates over Mo-containing Keggin heteropolyacids. ChemSusChem 2014, 7 (12), 3541.

[322] Liu, W. W.; Wang, X. P.; Hu, C. W.; Tong, D. M.; Zhu, L. F.; Li, G. Y. Catalytic pyrolysis of distillers dried grain with solubles: An attempt towards obtaining value-added products. International Journal of Hydrogen Energy 2014, 39 (12), 6371.

[323] Liu, W. W.; Hu, C. W.; Tong, D. M.; Yang, Y.; Li, G. Y.; Zhu, L. F.; Tang, J. Q. Catalytic effect of KF-846 on the reforming of the primary intermediates from the co-pyrolysis of pubescens and LDPE. Energy Conversion and Management 2014, 88, 565.

[324] Li, J.; Jiang, Z.; Hu, L.; Hu, C. Selective Conversion of Cellulose in Corncob Residue to Levulinic Acid in an Aluminum Trichloride–Sodium Chloride System. ChemSusChem 2014, 7 (9), 2482.

[325] Li, H.; Li, L.; Zhang, R.; Tong, D.; Hu, C. Fractional pyrolysis of Cyanobacteria from water blooms over HZSM-5 for high quality bio-oil production. Journal of Energy Chemistry 2014, 23 (6), 732.

[326] Ju, T. Y.; Yang, H. Q.; Li, F. M.; Li, X. Y.; Hu, C. W. Activation of propane C-H and C-C bonds by a diplatinum cluster: Potential energy surfaces and reaction mechanisms. Structural Chemistry 2014, 25 (2), 471.

[327] Jin, M.; Yang, R.; Zhao, M.; Li, G.; Hu, C. Application of Fe/activated carbon catalysts in the hydroxylation of phenol to dihydroxybenzenes. Industrial and Engineering Chemistry Research 2014, 53 (8), 2932.

[328] Jiang, Z.; He, T.; Li, J.; Hu, C. Selective conversion of lignin in corncob residue to monophenols with high yield and selectivity. Green Chemistry 2014, 16 (9), 4257.

[329] Hu, L.; Luo, Y.; Cai, B.; Li, J.; Tong, D.; Hu, C. The degradation of the lignin in Phyllostachys heterocycla cv. pubescens in an ethanol solvothermal system. Green Chemistry 2014, 16 (6), 3107.

[330] He, M. F.; Fu, H. Q.; Su, B. F.; Yang, H. Q.; Tang, J. Q.; Hu, C. W. Theoretical insight into the coordination of cyclic β-D-glucose to [Al(OH)(aq)]2+ and [Al(OH)2(aq)]1+ ions. Journal of Physical Chemistry B 2014, 118 (48), 13890.

[331] Du, L.; Wu, J.; Li, G.; Hu, C. Stability and deactivation research of RuO2-PdO/Ti electrode in dye water degradation. Water Science and Technology 2014, 70 (5), 757.

[332] Zhu, L.; Hu, C. Aniline production: From multiple steps to one step. In Aniline: Structural/Physical Properties, Reactions and Environmental Effects, 2013; pp 91.

[333] Zhu, J.; Peng, X.; Yao, L.; Deng, X.; Dong, H.; Tong, D.; Hu, C. Synthesis gas production from CO2 reforming of methane over Ni-Ce/SiO2 catalyst: The effect of calcination ambience. International Journal of Hydrogen Energy 2013, 38 (1), 117.

[334] Zhang, Q.; Yu, T.; Xia, S.; Li, G.; Hu, C. The preparation and properties of Cu doped TS-1 zeolite. RSC Advances 2013, 3 (44), 21628.

[335] Zeng, Y.; Zhao, B.; Zhu, L.; Tong, D.; Hu, C. Catalytic pyrolysis of natural algae from water blooms over nickel phosphide for high quality bio-oil production. RSC Advances 2013, 3 (27), 10806.

[336] Yi, J.; He, T.; Jiang, Z.; Li, J.; Hu, C. AlCl3 catalyzed conversion of hemicellulose in corn stover. Cuihua Xuebao/Chinese Journal of Catalysis 2013, 34 (11), 2146.

[337] Yao, L.; Zhu, J.; Peng, X.; Tong, D.; Hu, C. Comparative study on the promotion effect of Mn and Zr on the stability of Ni/SiO2 catalyst for CO2 reforming of methane. International Journal of Hydrogen Energy 2013, 38 (18), 7268.

[338] Yang, Y.; Hu, C.; Abu-Omar, M. M. The effect of hydrochloric acid on the conversion of glucose to 5-hydroxymethylfurfural in AlCl3-H2O/THF biphasic medium. Journal of Molecular Catalysis A: Chemical 2013, 376, 98.

[339] Yang, N.; Dong, L.; Su, Z.; Hu, C. Theoretical study on the mechanism of Pd(OAc)2 catalyzed dehydrogenative cross-coupling of two heteroarenes. RSC Advances 2013, 3 (43), 20772.

[340] Xu, Q. Q.; Yang, H. Q.; Gao, C.; Hu, C. W. Theoretical study on the reaction mechanism of NO and CO catalyzed by Rh atom. Structural Chemistry 2013, 24 (1), 13.

[341] Wu, G.; Tan, X. Y.; Li, G. Y.; Hu, C. W. Effect of molar ratio of citric acid to metal nitrate on the structure and catalytic activity of NiO nanoparticles. Chemical Research in Chinese Universities 2013, 29 (1), 154.

[342] Wen, J.; Dong, L.; Tian, J.; Jiang, T.; Yang, Y. Q.; Huang, Z.; Yu, X. Q.; Hu, C. W.; Hu, S.; Yang, T. Z.; et al. Fluorescent BINOL-based sensor for thorium recognition and a density functional theory investigation. Journal of Hazardous Materials 2013, 263, 638.

[343] Su, Z.; Li, W.; Wang, J.; Hu, C.; Feng, X. A theoretical investigation on the strecker reaction catalyzed by a Ti IV-complex catalyst generated from a cinchona alkaloid, achiral substituted 2,2′-biphenol, and tetraisopropyl titanate. Chemistry - A European Journal 2013, 19 (5), 1637.

[344] Qi, W. Y.; Yang, Y.; Hu, C. W. Catalytic performance of ultrastable y type zeolite and mg-modified ultrastable y type zeolite on the pyrolysis of neosinocalamus affinis. Asian Journal of Chemistry 2013, 25 (7), 4005.

[345] Peng, X.; Zhu, J.; Yao, L.; Hu, C. Effect of methane co-feeding on the selectivity of ethylene produced from oxidative dehydrogenation of ethane with CO2 over a Ni-La/SiO 2 catalyst. Journal of Energy Chemistry 2013, 22 (4), 653.

[346] Liu, W. W.; Hu, C. W.; Yang, Y.; Tong, D. M.; Zhu, L. F.; Zhang, R. N.; Zhao, B. H. Study on the effect of metal types in (Me)-Al-MCM-41 on the mesoporous structure and catalytic behavior during the vapor-catalyzed co-pyrolysis of pubescens and LDPE. Applied Catalysis B: Environmental 2013, 129, 202.

[347] Liu, H.; Li, G.; Hu, C. Selective ring C - H bonds activation of toluene over Fe/activated carbon catalyst. Journal of Molecular Catalysis A: Chemical 2013, 377, 143.

[348] Liang, X.; Yang, R.; Li, G.; Hu, C. Phenol hydroxylation over Fe-incorporated mesoporous materials prepared by coprecipitation. Microporous and Mesoporous Materials 2013, 182, 62.

[349] Li, W.; Su, Z.; Hu, C. Mechanism of ketone allylation with allylboronates as catalyzed by zinc compounds: A DFT study. Chemistry - A European Journal 2013, 19 (1), 124.

[350] Ju, T. Y.; Yang, H. Q.; Li, F. M.; Li, X. Y.; Hu, C. W. Reaction mechanism on the activation of ethane C-H and C-C bonds by a diplatinum cluster. Theoretical Chemistry Accounts 2013, 132 (9),

[351] Dong, L. L.; He, L.; Tao, G. H.; Huang, M.; Hu, C. Theoretical enthalpies of formation of [AA]X and [AAE]X type amino acid ionic liquids. Journal of Chemical and Engineering Data 2013, 58 (5), 1176.

[352] Dong, L. L.; He, L.; Tao, G. H.; Hu, C. High yield of ethyl valerate from the esterification of renewable valeric acid catalyzed by amino acid ionic liquids. RSC Advances 2013, 3 (14), 4806.

[353] Dong, L. L.; He, L.; Liu, H. Y.; Tao, G. H.; Nie, F. D.; Huang, M.; Hu, C. W. Nitrogen-rich energetic ionic liquids based on the N,N-Bis(1H-tetrazol-5- yl)amine anion - Syntheses, structures, and properties. European Journal of Inorganic Chemistry 2013,  (28), 5009.

[354] Zhu, J.; Peng, X.; Yao, L.; Tong, D.; Hu, C. CO 2 reforming of methane over Mg-promoted Ni/SiO 2 catalysts: The influence of Mg precursors and impregnation sequences. Catalysis Science and Technology 2012, 2 (3), 529.

[355] Zheng, K.; Liu, X.; Qin, S.; Xie, M.; Lin, L.; Hu, C.; Feng, X. Completely OH-selective FeCl3-catalyzed prins cyclization: Highly stereoselective synthesis of 4-OH-tetrahydropyrans. Journal of the American Chemical Society 2012, 134 (42), 17564.

[356] Zhang, L.; Liu, H. H.; Li, G. Y.; Hu, C. W. Continuous flow reactor for hydroxylation of benzene to phenol by hydrogen peroxide. Chinese Journal of Chemical Physics 2012, 25 (5), 585.

[357] Yang, Y.; Xiang, X.; Tong, D.; Hu, C.; Abu-Omar, M. M. One-pot synthesis of 5-hydroxymethylfurfural directly from starch over SO42-/ZrO 2-Al 2O 3 solid catalyst. Bioresource Technology 2012, 116, 302.

[358] Yang, Y.; Hu, C. W.; Abu-Omar, M. M. Conversion of carbohydrates and lignocellulosic biomass into 5-hydroxymethylfurfural using AlCl3·6H2O catalyst in a biphasic solvent system. Green Chemistry 2012, 14 (2), 509.

[359] Yang, Y.; Hu, C. W.; Abu-Omar, M. M. Synthesis of furfural from xylose, xylan, and biomass using AlCl 3·6H2O in biphasic media via xylose isomerization to xylulose. ChemSusChem 2012, 5 (2), 405.

[360] Yang, Y.; Hu, C.; Abu-Omar, M. M. Conversion of glucose into furans in the presence of AlCl 3 in an ethanol-water solvent system. Bioresource Technology 2012, 116, 190.

[361] Yang, Y.; Abu-Omar, M. M.; Hu, C. Heteropolyacid catalyzed conversion of fructose, sucrose, and inulin to 5-ethoxymethylfurfural, a liquid biofuel candidate. Applied Energy 2012, 99, 80.

[362] Xu, Y.; Hu, L.; Huang, H.; Tong, D.; Hu, C. Simultaneous separation and selective conversion of hemicellulose in Pubescen in water-cyclohexane solvent. Carbohydrate Polymers 2012, 88 (4), 1342.

[363] Xu, J.; Liu, H.; Yang, R.; Li, G.; Hu, C. Hydroxylation of benzene by activated carbon catalyst. Chinese Journal of Catalysis 2012, 33 (9-10), 1622.

[364] Xu, J.; Liu, H.; Yang, R.; Li, G.; Hu, C. Hydroxylation of benzene by activated carbon catalyst. Cuihua Xuebao/Chinese Journal of Catalysis 2012, 33 (10), 1622.

[365] Wang, X.; Cao, X.; Hu, X.; Li, G.; Zhu, L.; Hu, C. Effect of zirconium addition on vanadium-catalyzed toluene oxidation by H 2O 2 in CH 3COOH. Journal of Molecular Catalysis A: Chemical 2012, 357, 1.

[366] Tang, D.; Zhu, L.; Hu, C. Elucidating active species and mechanism of the direct oxidation of benzene to phenol with hydrogen peroxide catalyzed by vanadium-based catalysts using DFT calculations. RSC Advances 2012, 2 (6), 2329.

[367] Tang, D.; Chen, Z.; Hu, J.; Sun, G.; Lu, S.; Hu, C. CO oxidation catalyzed by silver nanoclusters: Mechanism and effects of charge. Physical Chemistry Chemical Physics 2012, 14 (37), 12829.

[368] Shen, X.; Wang, Y. X.; Hu, C. W.; Qian, K.; Ji, Z.; Jin, M. One-Pot Conversion of Inulin to Furan Derivatives Catalyzed by Sulfated TiO2/Mordenite Solid Acid. ChemCatChem 2012, 4 (12), 2013.

[369] Qin, S.; Yang, H. Q.; Gao, C.; Xu, J.; Hu, C. W. Methane dehydrogenation on monomeric Rh center located on (100) γ-alumina - A theoretical study. Surface Science 2012, 606 (23-24), 1899.

[370] Liu, B.; Meng, X. G.; Li, W. Y.; Zhou, L. C.; Hu, C. W. Theoretical and experimental studies on selective oxidation of aromatic ketone by performic acid. In Journal of Physical Chemistry A, 2012; Vol. 116, pp 2920. DOI: 10.1021/jp212489k.

[371] Lian, S.; Li, H.; Tang, J.; Tong, D.; Hu, C. Integration of extraction and transesterification of lipid from jatropha seeds for the production of biodiesel. Applied Energy 2012, 98, 540.

[372] Li, W.; Qin, S.; Su, Z.; Hu, C.; Feng, X. Theoretical study on the mechanism and stereochemistry of salicylaldehyde-Al(III)-catalyzed hydrophosphonylation of benzaldehyde. Computational and Theoretical Chemistry 2012, 989, 44.

[373] Li, F. M.; Yang, H. Q.; Ju, T. Y.; Li, X. Y.; Hu, C. W. Activation of propane C-H and C-C bonds by gas-phase Pt atom: A theoretical study. International Journal of Molecular Sciences 2012, 13 (7), 9278.

[374] Li, F. M.; Yang, H. Q.; Ju, T. Y.; Li, X. Y.; Hu, C. W. Activation of C-H and C-C bonds of ethane by gas-phase Pt atom: Potential energy surface and reaction mechanism. Computational and Theoretical Chemistry 2012, 994, 112.

[375] Li, C. Q.; Yang, H. Q.; Xu, J.; Hu, C. W. Hydroxylation mechanism of methane and its derivatives over designed methane monooxygenase model with peroxo dizinc core. Organic and Biomolecular Chemistry 2012, 10 (19), 3924.

[376] Hu, C.; Luo, J.; Zeng, Y.; Xu, Y.; Tong, D. Efficient and selective conversion of biomass through fractional route. Shiyou Huagong/Petrochemical Technology 2012, 41 (3), 245.

[377] Guo, B.; Zhang, Q.; Li, G.; Yao, J.; Hu, C. Aromatic C-N bond formation via simultaneous activation of C-H and N-H bonds: Direct oxyamination of benzene to aniline. Green Chemistry 2012, 14 (7), 1880.

[378] Du, L.; Wu, J.; Hu, C. Electrochemical oxidation of Rhodamine B on RuO 2-PdO-TiO 2/Ti electrode. Electrochimica Acta 2012, 68, 69.

[379] Dong, L.; Wen, J.; Qin, S.; Yang, N.; Yang, H.; Su, Z.; Yu, X.; Hu, C. Iron-catalyzed direct suzuki-miyaura reaction: Theoretical and experimental studies on the mechanism and the regioselectivity. ACS Catalysis 2012, 2 (8), 1829.

[380] Dong, L.; Qin, S.; Yang, H.; Su, Z.; Hu, C. Theoretical investigation on copper hydrides catalyzed hydrosilylation reaction of 3-methylcyclohex-2-enone: Mechanism and ligands' effect. Catalysis Science and Technology 2012, 2 (3), 564.

[381] Chang, F.; Hu, C.; Liu, X.; Liu, L.; Zhang, J. Coulter dispersant as positive electrolyte additive for the vanadium redox flow battery. Electrochimica Acta 2012, 60, 334.

[382] Zhu, J.; Peng, X.; Yao, L.; Shen, J.; Tong, D.; Hu, C. The promoting effect of La, Mg, Co and Zn on the activity and stability of Ni/SiO2 catalyst for CO2 reforming of methane. International Journal of Hydrogen Energy 2011, 36 (12), 7094.

[383] Zhao, D.; You, J.; Hu, C. Recent progress in coupling of two heteroarenes. Chemistry - A European Journal 2011, 17 (20), 5466.

[384] Yang, W. Y.; Zeng, Y.; Luo, J.; Tong, D. M.; Qing, R. W.; Fan, Y.; Hu, C. W. Production of bio-oil by direct and catalytic pyrolysis of Nannochloropsis sp. Ranliao Huaxue Xuebao/Journal of Fuel Chemistry and Technology 2011, 39 (9), 664.

[385] Yang, M. Y.; Yang, H. Q.; Gao, C.; Qin, S.; Hu, C. W. Theoretical study on the gas-phase reaction mechanism between rhodium monoxide cation and methane. Structural Chemistry 2011, 22 (5), 983.

[386] Yang, H. Q.; Hu, C. W.; Gao, C.; Yang, M. Y.; Li, F. M.; Li, C. Q.; Li, X. Y. Theoretical study on the gas-phase reaction mechanism between palladium monoxide and methane. Journal of Computational Chemistry 2011, 32 (16), 3440.

[387] Xie, J.; Li, G. Y.; Hu, C. W. Theoretical study on the mechanism for direction oxidation of benzene to phenol by CuO+. Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities 2011, 32 (2), 339.

[388] Xiang, X.; He, L.; Yang, Y.; Guo, B.; Tong, D.; Hu, C. A one-pot two-step approach for the catalytic conversion of glucose into 2,5-diformylfuran. Catalysis Letters 2011, 141 (5), 735.

[389] Tong, D.; Hu, C.; Jiang, K.; Li, Y. Cetane number prediction of biodiesel from the composition of the fatty acid methyl esters. JAOCS, Journal of the American Oil Chemists' Society 2011, 88 (3), 415.

[390] Tian, Q.; Dong, L.; Ma, X.; Xu, L.; Hu, C.; Zou, W.; Shao, H. Stereoselective synthesis of 2-C-branched (acetylmethyl) oligosaccharides and glycoconjugates: Lewis acid-catalyzed glycosylation from 1,2-cyclopropaneacetylated sugars. Journal of Organic Chemistry 2011, 76 (4), 1045.

[391] Tang, D.; Zhu, L.; Hu, C. Comprehensive DFT study of the mechanism of vanadium-catalyzed amination of benzene with hydroxylamine. Organometallics 2011, 30 (21), 5675.

[392] Tang, D.; Hu, C. DFT insight into CO oxidation catalyzed by gold nanoclusters: Charge effect and multi-state reactivity. Journal of Physical Chemistry Letters 2011, 2 (23), 2972.

[393] Tan, X.; Zhao, Y.; Li, G.; Hu, C. Effect of calcination temperature on the structure and hydroxylation activity of Ni 0.5 Cu 0.5 Fe 2 O 4 nanoparticles. Applied Surface Science 2011, 257 (14), 6256.

[394] Song, R.; Tong, D.; Tang, J.; Hu, C. Effect of composition on the structure and catalytic properties of KF/Mg-La solid base catalysts for biodiesel synthesis via transesterification of cottonseed oil. Energy and Fuels 2011, 25 (6), 2679.

[395] Pei, J.; Qin, S.; Li, G. Y.; Hu, C. W. Water-promoted one-step anodic acetoxylation of benzene to phenyl acetate with high selectivity. Chinese Journal of Chemical Physics 2011, 24 (2), 244.

[396] Li, Y.; Lian, S.; Tong, D.; Song, R.; Yang, W.; Fan, Y.; Qing, R.; Hu, C. One-step production of biodiesel from Nannochloropsis sp. on solid base Mg-Zr catalyst. Applied Energy 2011, 88 (10), 3313.

[397] Li, W.; Qin, S.; Su, Z.; Yang, H.; Hu, C. Theoretical study on the mechanism of Al(salalen)-catalyzed hydrophosphonylation of aldehydes. Organometallics 2011, 30 (8), 2095.

[398] Li, W.; Liu, X.; Hao, X.; Hu, X.; Chu, Y.; Cao, W.; Qin, S.; Hu, C.; Lin, L.; Feng, X. New electrophilic addition of α-diazoesters with ketones for enantioselective C-N bond formation. Journal of the American Chemical Society 2011, 133 (39), 15268.

[399] Li, S.; Li, G.; Wu, G.; Hu, C.; Lee, G. Microporous carbon molecular sieve as a novel catalyst for the hydroxylation of phenol. Microporous and Mesoporous Materials 2011, 143 (1), 22.

[400] Huang, D.; Qin, S.; Hu, C. Computational investigation on the mechanism and stereochemistry of guanidine-catalyzed enantioselective isomerization of 3-alkynoates to allenoates. Organic and Biomolecular Chemistry 2011, 9 (17), 6034.

[401] Hu, X. K.; Zhu, L. F.; Guo, B.; Liu, Q. Y.; Li, G. Y.; Hu, C. W. Hydroxylation of benzene to phenol via hydrogen peroxide in hydrophilic triethylammonium acetate ionic liquid. Chemical Research in Chinese Universities 2011, 27 (3), 503.

[402] Hu, X.; Zhu, L.; Wang, X.; Guo, B.; Xu, J.; Li, G.; Hu, C. Active species formed in a Fenton-like system in the medium of triethylammonium acetate ionic liquid for hydroxylation of benzene to phenol. Journal of Molecular Catalysis A: Chemical 2011, 342-343, 41.

[403] Hu, C.; Yang, Y.; Luo, J.; Pan, P.; Tong, D.; Li, G. Recent advances in the catalytic pyrolysis of biomass. Frontiers of Chemical Engineering in China 2011, 5 (2), 188.

[404] Guo, B.; Zhu, L.; Hu, X.; Zhang, Q.; Tong, D.; Li, G.; Hu, C. Nature of vanadium species on vanadium silicalite-1 zeolite and their stability in hydroxylation reaction of benzene to phenol. Catalysis Science and Technology 2011, 1 (6), 1060.

[405] Du, L.; Wu, J.; Qin, S.; Hu, C. Degradation mechanism of methyl orange by electrochemical process on RuOx-PdO/Ti electrode. Water Science and Technology 2011, 63 (7), 1539.

[406] Du, L.; Wang, Y.; Dai, S.; Pei, J.; Qin, S.; Hu, C. Comparative study on the catalytic electrooxidative abilities of RuOx-PdO-TiO2/Ti and RuOx-PdO/Ti anode. Journal of Hazardous Materials 2011, 185 (2-3), 1596.

[407] Chen, C. H.; Xu, J. Q.; Jin, M. M.; Li, G. Y.; Hu, C. W. Direct synthesis of phenol from benzene on an activated carbon catalyst treated with nitric acid. Chinese Journal of Chemical Physics 2011, 24 (3), 358.

[408] Zhang, J.; Luo, J.; Tong, D.; Zhu, L.; Dong, L.; Hu, C. The dependence of pyrolysis behavior on the crystal state of cellulose. Carbohydrate Polymers 2010, 79 (1), 164.

[409] Zeng, W.; Li, X.; Du, J.; Li, J.; Zhang, P.; Hu, C.; Meng, X. Kinetic study on oxidation of 1-(3, 4-dimethoxyphenyl)ethanol catalyzed by copper(II) complexes. Acta Chimica Sinica 2010, 68 (1), 27.

[410] Yang, L.; Qin, S.; Su, X.; Yang, F.; You, J.; Hu, C.; Xie, R.; Lan, J. 1,1′-Binaphthyl-based imidazolium chemosensors for highly selective recognition of tryptophan in aqueous solutions. Organic and Biomolecular Chemistry 2010, 8 (2), 339.

[411] Xu, J.; Yang, H. Q.; Qin, S.; Hu, C. W. Theoretical study on methane hydroxylation by mimic methane monooxygenase with bis(μ-OXO)Dimanganese core. Journal of Theoretical and Computational Chemistry 2010, 9 (1), 233.

[412] Xie, J.; Qin, S.; Tang, D.; Hu, C. Theoretical study on the activation of ammonia by Ni atom. Acta Chimica Sinica 2010, 68 (10), 969.

[413] Xi, P.; Yang, F.; Qin, S.; Zhao, D.; Lan, J.; Gao, G.; Hu, C.; You, J. Palladium(II)-catalyzed oxidative C-H/C-H cross-coupling of heteroarenes. Journal of the American Chemical Society 2010, 132 (6), 1822.

[414] Wu, G.; Tan, X.; Li, G.; Hu, C. Effect of preparation method on the physical and catalytic property of nanocrystalline Fe2O3. Journal of Alloys and Compounds 2010, 504 (2), 371.

[415] Wen, J.; Qin, S.; Ma, L. F.; Dong, L.; Zhang, J.; Liu, S. S.; Duan, Y. S.; Chen, S. Y.; Hu, C. W.; Yu, X. Q. Iron-mediated direct suzuki-miyaura reaction: A new method for the ortho -arylation of pyrrole and pyridine. Organic Letters 2010, 12 (12), 2694.

[416] Tang, D.; Hu, J.; Zhang, Y.; Hu, C. Theoretical study on mechanism of Cu2--catalyzed CO oxidation. Acta Chimica Sinica 2010, 68 (14), 1379.

[417] Tan, X.; Li, G.; Zhao, Y.; Hu, C. Effect of preparation method on the surface properties and activity of Ni0.7Cu0.3Fe2O4 nanoparticles. Journal of Alloys and Compounds 2010, 493 (1-2), 55.

[418] Su, Z.; Qin, S.; Hu, C.; Feng, X. Theoretical investigations on the mechanism of hetero-diels-alder reactions of brassard's diene and 1, 3-butadiene catalyzed by a tridentate schiff base titanium(IY) complex. Chemistry - A European Journal 2010, 16 (14), 4359.

[419] Ren, S.; Qin, S.; Zhu, J.; Peng, X.; Hu, C. New Co-La/SiO2 catalyst for the simultaneous production of C2H4 and syngas from CH4 with Na 2WO4/Mn/SiO2. Industrial and Engineering Chemistry Research 2010, 49 (5), 2078.

[420] Pan, P.; Hu, C.; Yang, W.; Li, Y.; Dong, L.; Zhu, L.; Tong, D.; Qing, R.; Fan, Y. The direct pyrolysis and catalytic pyrolysis of Nannochloropsis sp. residue for renewable bio-oils. Bioresource Technology 2010, 101 (12), 4593.

[421] Luo, J.; Xu, Y.; Zhao, L.; Dong, L.; Tong, D.; Zhu, L.; Hu, C. Two-step hydrothermal conversion of Pubescens to obtain furans and phenol compounds separately. Bioresource Technology 2010, 101 (22), 8873.

[422] Luo, J.; Li, J.; Shen, D.; He, L.; Tong, D.; Hu, C. Catalytic pyrolysis of Pubescens to phenols over Ni/C catalyst. Science China Chemistry 2010, 53 (7), 1487.

[423] Liu, Y.; Pang, Q. H.; Meng, X. G.; Liu, F. R.; Li, J. M.; Du, J.; Hu, C. W. Oxidative coupling of 2,6-dimethylphenol catalyzed by copper(II) complexes in aqueous solution. Journal of Applied Polymer Science 2010, 118 (4), 2043.

[424] Liu, W.; Hu, C.; Yang, Y.; Zhu, L.; Tong, D. Effect of the interference instant of zeolite HY catalyst on the pyrolysis of pubescens. Chinese Journal of Chemical Engineering 2010, 18 (2), 351.

[425] Liu, W.; Hu, C.; Yang, Y.; Tong, D.; Li, G.; Zhu, L. Influence of ZSM-5 zeolite on the pyrolytic intermediates from the co-pyrolysis of pubescens and LDPE. Energy Conversion and Management 2010, 51 (5), 1025.

[426] Liu, Q.; Zhu, L.; Li, L.; Guo, B.; Hu, X.; Hu, C. Selective activation of C-H bonds on the ring of ethylbenzene catalyzed by several diperoxovanadate complexes. Journal of Molecular Catalysis A: Chemical 2010, 331 (1-2), 71.

[427] Li, X. H.; Meng, X. G.; Pang, Q. H.; Liu, S. D.; Li, J. M.; Du, J.; Hu, C. W. Metal complexes catalyzed oxidative coupling of 2,6-dimethylphenol in micellar media. Journal of Molecular Catalysis A: Chemical 2010, 328 (1-2), 88.

[428] Jiang, K.; Tong, D.; Tang, J.; Song, R.; Hu, C. The Co-promotion effect of Mo and Nd on the activity and stability of sulfated zirconia-based solid acids in esterification. Applied Catalysis A: General 2010, 389 (1-2), 46.

[429] Dong, L.; Qin, S.; Su, Z.; Yang, H.; Hu, C. Computational investigation on the mechanism and the stereoselectivity of Morita-Baylis-Hillman reaction and the effect of the bifunctional catalyst N-methylprolinol. Organic and Biomolecular Chemistry 2010, 8 (17), 3985.

[430] Chao, G.; Yang, H. Q.; Jian, X. U.; Song, Q.; Hu, C. W. Theoretical study on the gas-phase reaction mechanism between rhodium monoxide and methane for methanol production. Journal of Computational Chemistry 2010, 31 (5), 938.

[431] Cao, X.; Qin, S.; Su, Z.; Yang, H.; Hu, C.; Feng, X. Theoretical study on hetero-diels-alder reaction of butadiene with benzaldehyde catalyzed by chiral in111 complexes. European Journal of Organic Chemistry 2010,  (20), 3867.

[432] Zhu, J.; Qin, S.; Ren, S.; Peng, X.; Tong, D.; Hu, C. Na2WO4/Mn/SiO2 catalyst for oxidative dehydrogenation of ethane using CO2 as oxidant. Catalysis Today 2009, 148 (3-4), 310.

[433] Zhang, P.; Meng, X. G.; Du, J.; Li, J. M.; Zeng, W. P.; Hu, C. W. Hydrolysis of sucrose catalyzed by copper(II) complexes with imidazole group. Chinese Journal of Inorganic Chemistry 2009, 25 (8), 1371.

[434] Yang, Y.; Xiang, X.; Luo, J.; Qi, W. Y.; Yan, H. P.; Hu, C. W. Pyrolysis of glucose over two amphoteric metal oxides. Chemical Research in Chinese Universities 2009, 25 (2), 234.

[435] Yang, H. Q.; Qin, S.; Hu, C. W. Theoretical study on the gas-phase reaction mechanism between nickel monoxide and methane for Syngas production. Journal of Computational Chemistry 2009, 30 (6), 847.

[436] Yan, H.; Yang, Y.; Tong, D.; Xiang, X.; Hu, C. Catalytic conversion of glucose to 5-hydroxymethylfurfural over SO42-/ZrO2 and SO42-/ZrO2-Al2O3 solid acid catalysts. Catalysis Communications 2009, 10 (11), 1558.

[437] Wang, X.; Wu, J.; Zhao, M.; Lv, Y.; Li, G.; Hu, C. Partial oxidation of toluene in CH3COOH by H2O 2 in the presence of VO (acac)2 catalyst. Journal of Physical Chemistry C 2009, 113 (32), 14270.

[438] Wang, J. Y.; Chen, H.; Wang, J.; Fu, X. H.; Hu, C. W.; Xiong, Y. DFT theoretical studies on the effects of vanadium(V)-substitution on the oxidative property of α-Keggin-type heteropolyanion clusters-progress. Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities 2009, 30 (11 SUPPL.), 1.

[439] Wang, J.; Wang, J.; Hu, C.; Xiao, S. DFT study on the oxidative property of vanadium(v)-substituted α-Keggin-type heteropolyanion clusters [PVnMo12-n O40](3+n)- (n=1~3). Acta Chimica Sinica 2009, 67 (11), 1189.

[440] Wang, J.; Fu, X.; Wang, J.; Hu, C. Effects of vanadium(V)-substitution on the oxidative properties of α-Keggin-type heteropolyanion clusters-progress in DFT theoretical studies. Science in China, Series B: Chemistry 2009, 52 (12), 2096.

[441] Tang, D.; Zhang, Y.; Hu, C. Theoretical study on mechanism of hydroformylation of ethene catalyzed by a heterobimetallic Rh(I)-Cr complex. Chinese Journal of Chemistry 2009, 27 (1), 81.

[442] Tang, D.; Hu, J.; Zhang, Y.; Hu, C. Theoretical study on mechanism of CO oxidation catalyzed by Ag2. Acta Chimica Sinica 2009, 67 (16), 1859.

[443] Tang, D.; Hu, C. DFT study on mechanism of acetylene hydroformylation catalyzed by heterobinuclear Rh(I)-Cr complex. Acta Chimica Sinica 2009, 67 (12), 1303.

[444] Tan, X.; Li, G.; Zhao, Y.; Hu, C. The effect of Cu content on the structure of Ni1-xCuxFe2O4 spinels. Materials Research Bulletin 2009, 44 (12), 2160.

[445] Lü, Y. F.; Zhu, L. F.; Liu, Q. Y.; Guo, B.; Hu, X. K.; Hu, C. W. Direct amination of benzene to aniline with several typical vanadium complexes. Chinese Chemical Letters 2009, 20 (2), 238.

[446] Lu, Q. S.; Dong, L.; Zhang, J.; Li, J.; Jiang, L.; Huang, Y.; Qin, S.; Hu, C. W.; Yu, X. Q. Imidazolium-functionalized BINOL as a multifunctional receptor for chromogenic and chiral anion recognition. Organic Letters 2009, 11 (3), 669.

[447] Li, J. M.; Meng, X. G.; Hu, C. W.; Du, J.; Zeng, X. C. Oxidation of 4-chlorophenol catalyzed by Cu(II) complexes under mild conditions: Kinetics and mechanism. Journal of Molecular Catalysis A: Chemical 2009, 299 (1-2), 102.

[448] Li, J. M.; Meng, X. G.; Hu, C. W.; Du, J. Adsorption of phenol, p-chlorophenol and p-nitrophenol onto functional chitosan. Bioresource Technology 2009, 100 (3), 1168.

[449] Tang, D. Y.; Zhang, Y. Q.; Hu, C. W. Theoretical study on mechanism of CO oxidation catalyzed by Au2n- (n=1, 2). Acta Chimica Sinica 2008, 66 (13), 1501.

[450] Tang, D. Y.; Zhang, Y. Q.; Hu, C. W. Density functional theory study on carbonyl insertion into RhI-C bond in heterobimetallic Rh-M (M=Cr, Mo, W) species. Acta Chimica Sinica 2008, 66 (20), 2193.

[451] Tang, D. Y.; Hu, C. W. DFT study on ethylene insertion into RhI-H bond of heterobinuclear (H)Rh-Cr complexes. Acta Chimica Sinica 2008, 66 (6), 647.

[452] Qin, S.; Yang, H. Q.; Xu, J.; Tang, D. Y.; Hu, C. W. A DFT study on the reaction mechanism of SrO + CH4. Journal of Theoretical and Computational Chemistry 2008, 7 (2), 189.

[453] Qin, S.; Hu, C.; Yang, H.; Su, Z.; Tang, D. Computational investigation on stereochemistry in titanium- salicylaldehydes-catalyzed cyanation of benzaldehyde. Journal of Organic Chemistry 2008, 73 (13), 4840.

[454] Liu, J.; Yang, Z.; Wang, Z.; Wang, F.; Chen, X.; Liu, X.; Feng, X.; Su, Z.; Hu, C. Asymmetric direct aldol reaction of functionalized ketones catalyzed by amine organocatalysts based on bispidine. Journal of the American Chemical Society 2008, 130 (17), 5654.

[455] Hu, W.; Li, J. Z.; Wang, Y.; Du, J.; Hu, C. W.; Zeng, X. C. Studies on phenol oxidation with h2o2 catalyzed by schiff base cobalt(ii) complexes in micellar solution. Journal of Dispersion Science and Technology 2008, 29 (10), 1476.

[456] Hu, W.; Li, J. Z.; Du, J.; Hu, C. W.; Zeng, X. C. Studies on the phenol oxidation by H2O2 catalyzed by metallomicelle made from crowned schiff base Co(II) complexes containing benzoaza-15-crown-5. Journal of Dispersion Science and Technology 2008, 29 (9), 1195.

[457] Dai, S. J.; Hu, C. W.; Du, L.; Zhang, X. S. Investigation on electrocatalytic degradation of methyl orange on Ti/TiO2 anode doped with Ru-Pd. Acta Chimica Sinica 2008, 66 (14), 1620.

[458] Chen, X.; Wang, J.; Zhu, Y.; Shang, D.; Gao, B.; Liu, X.; Feng, X.; Su, Z.; Hu, C. A secondary amine amide organocatalyst for the asymmetric nitroaldol reaction of α-ketophosphonates. Chemistry - A European Journal 2008, 14 (35), 10896.

[459] Zhu, L. F.; Guo, B.; Tang, D. Y.; Hu, X. K.; Li, G. Y.; Hu, C. W. Sodium metavanadate catalyzed one-step amination of benzene to aniline with hydroxylamine. Journal of Catalysis 2007, 245 (2), 446.

[460] Zhong, Y. K.; Li, G. Y.; Zhu, L. F.; Tang, D. Y.; Hu, C. W. Direct catalytic hydroxylation of several typical aromatic compounds over Fe/activated carbon catalyst. Gaodeng Xuexiao Huaxue Xuebao/Chemical Journal of Chinese Universities 2007, 28 (8), 1570.

[461] Zhong, Y.; Li, G.; Zhu, L.; Yan, Y.; Wu, G.; Hu, C. Low temperature hydroxylation of benzene to phenol by hydrogen peroxide over Fe/activated carbon catalyst. Journal of Molecular Catalysis A: Chemical 2007, 272 (1-2), 169.

[462] Wu, L.; Zheng, C.; Ma, Q.; Hu, C.; Hou, X. Chemical vapor generation for determination of mercury by inductively coupled plasma mass spectrometry. Applied Spectroscopy Reviews 2007, 42 (2), 79.

[463] Wu, J. p.; Wang, X. q.; Zhu, L. f.; Li, G. y.; Hu, C. w. Selective Oxidation of Toluene with Hydrogen Peroxide Catalyzed by V-Mo-based Catalyst. Chemical Research in Chinese Universities 2007, 23 (5), 585.

[464] Wu, J.; Zhang, H.; Qin, S.; Hu, C. La-promoted Na2WO4/Mn/SiO2 catalysts for the oxidative conversion of methane simultaneously to ethylene and carbon monoxide. Applied Catalysis A: General 2007, 323, 126.

[465] Wu, J.; Qin, S.; Hu, C. Na2WO4/Co-Mn/SiO2 catalyst for the simultaneous production of ethylene and syngas from CH4. Catalysis Letters 2007, 118 (3-4), 285.

[466] Wu, J.; Du, L.; Li, G. Y.; Liang, B. Y.; Qin, S.; Hu, C. W. Photoelectrochemical degradation of reactive brilliant red K-2Bp on RuOx-PdO/Ti Electrode. Wuli Huaxue Xuebao/ Acta Physico - Chimica Sinica 2007, 23 (2), 268.

[467] Tang, D.; Zhu, L.; Qin, S.; Su, Z.; Hu, C. A theoretical study on the mechanism of the oxidation of hydroxylamine by VO2+. Journal of Molecular Structure: THEOCHEM 2007, 805 (1-3), 143.

[468] Tang, D.; Qin, S.; Su, Z.; Hu, C. Comprehensive theoretical study on the mechanism of regioselective hydroformylation of phosphinobutene catalyzed by a heterobinuclear rhodium(I)- chromium complex. Organometallics 2007, 26 (1), 33.

[469] Li, J. M.; Zang, R. R.; Meng, X. G.; Li, M.; Kou, D.; Du, J.; Hu, C. W.; Zeng, X. C. Hydrolysis of PNPP catalyzed by Cu (II), Ni (II) schiff base complexes in CTAB micellar solution. Journal of Dispersion Science and Technology 2007, 28 (5), 681.

[470] Hu, W.; Xie, B.; Wang, Y.; Xie, J. Q.; Meng, X. G.; Du, J.; Hu, C. W.; Zeng, X. C. Studies on PNPP hydrolysis catalyzed by divalent metal ion macrocyclic schiff base complexes in micellar solution. Journal of Dispersion Science and Technology 2007, 28 (6), 860.

[471] Hu, W.; Wang, Y.; Li, J. Z.; Du, J.; Meng, X. G.; Hu, C. W.; Zeng, X. C. Studies on PNPP hydrolysis catalyzed by Schiff base cobalt(II) complexes containing benzoaza-15-crown-5. Chinese Journal of Chemistry 2007, 25 (6), 765.

[472] Hu, W.; Wang, Y.; Li, J. Z.; Du, J.; Meng, X. G.; Hu, C. W.; Zeng, X. C. Hydrolysis of BNPP catalyzed by the crowned schiff base Co(II) complex containing benzoaza-15-Crown-5 in micellar solution. Journal of Dispersion Science and Technology 2007, 28 (5), 749.

[473] Hu, C.; Zhu, L.; Xia, Y. Direct amination of benzene to aniline by aqueous ammonia and hydrogen peroxide over V-Ni/Al2O3 catalyst with catalytic distillation. Industrial and Engineering Chemistry Research 2007, 46 (10), 3443.

[474] Hu, C.; Wu, J.; Zhang, H.; Qin, S. Dual catalyst bed for the oxidation of CH4 simultaneously to C2H4 and syngas. AIChE Journal 2007, 53 (11), 2925.

[475] Zhang, H.; Wu, J.; Xu, B.; Hu, C. Simultaneous production of syngas and ethylene from methane by combining its catalytic oxidative coupling over Mn/Na2WO4/SiO 2 with gas phase partial oxidation. Catalysis Letters 2006, 106 (3-4), 161.

[476] Zhang, H.; Wu, J.; Qin, S.; Hu, C. Study of the effect of gas space time on the combination of methane gas-phase oxidation and catalytic oxidative coupling over Mn/Na 2WO4/SiO2 catalyst. Industrial and Engineering Chemistry Research 2006, 45 (21), 7090.

[477] Yang, H. Q.; Hu, C. W.; Qin, S. Theoretical study on the reaction mechanism of CH4 with CaO. Chemical Physics 2006, 330 (3), 343.

[478] Wang, J. Y.; Fu, X. H.; Wu, T.; Wang, J.; Xiao, S. X.; Hu, C. W. Ab initio study on the Michael addition reaction mechanism of indole with dimethyl alkylidene malonate. Acta Chimica Sinica 2006, 64 (8), 727.

[479] Wang, J.; Hu, C.; Jian, M.; Zhang, J.; Li, G. Catalytic oxidation performance of the α-Keggin-type vanadium-substituted heteropolymolybdates: A density functional theory study on [PVnMo12-nO40](3+n)- ( n = 0 - 3). Journal of Catalysis 2006, 240 (1), 23.

[480] Su, Z.; Qin, S.; Tang, D.; Yang, H.; Hu, C. Theoretical study on the reaction of methane and zinc oxide in gas phase. Journal of Molecular Structure: THEOCHEM 2006, 778 (1-3), 41.

[481] Su, Z.; Hu, C.; Qin, S.; Feng, X. A quantum chemical study on the mechanism of chiral N-oxides-catalyzed Strecker reaction. Tetrahedron 2006, 62 (17), 4071.

[482] Qi, W. Y.; Hu, C. W.; Li, G. Y.; Guo, L. H.; Yang, Y.; Luo, J.; Miao, X.; Du, Y. Catalytic pyrolysis of several kinds of bamboos over zeolite NaY. Green Chemistry 2006, 8 (2), 183.

[483] Li, Y.; Zheng, C.; Ma, Q.; Wu, L.; Hu, C.; Hou, X. Sample matrix-assisted photo-induced chemical vapor generation: A reagent free green analytical method for ultrasensitive detection of mercury in wine or liquor samples. Journal of Analytical Atomic Spectrometry 2006, 21 (1), 82.

[484] Jian, M.; Zhu, L.; Wang, J.; Zhang, J.; Li, G.; Hu, C. Sodium metavanadate catalyzed direct hydroxylation of benzene to phenol with hydrogen peroxide in acetonitrile medium. Journal of Molecular Catalysis A: Chemical 2006, 253 (1-2), 1.

[485] Hu, W.; Wang, Y.; Yan, J.; Li, J. Z.; Meng, X. G.; Hu, C. W.; Zeng, X. C. Hydrolysis of BNPP catalyzed by the crowned Schiff base Co(II) complexes in micellar solution. Journal of Dispersion Science and Technology 2006, 27 (8), 1085.

[486] Hu, W.; Li, J. Z.; Wang, Y.; Li, C.; Du, J.; Meng, X. G.; Hu, C. W.; Zeng, X. C. Studies on PNPP hydrolysis catalyzed by Schiff base cobalt(II) complexes. Chinese Journal of Chemistry 2006, 24 (11), 1498.

[487] Zhang, J.; Xie, J. Q.; Tang, Y.; Li, J.; Li, J. Z.; Zeng, W.; Hu, C. W. Hydrolysis of phosphate diester catalysed by transition metal complexes of a salicylaldimine Schiff base bearing dibenzo-18-crown-6. Journal of Chemical Research 2005,  (2), 130.

[488] Zhang, J.; Tang, Y.; Xie, J. Q.; Song, Z. R.; Wang, L.; Hu, C. W. The catalytic oxidation of phenol with H2O2 by metalloporphyrins as peroxidase mimics. Reaction Kinetics and Catalysis Letters 2005, 85 (2), 269.

[489] Zhang, J.; Tang, Y.; Xie, J. Q.; Li, J. Z.; Zeng, X. C.; Hu, C. W. Kinetics of BNPP hydrolysis catalyzed by the metallomicelle based on crown schiff base complex. Acta Physico - Chimica Sinica 2005, 21 (4), 408.

[490] Zhang, J.; Tang, Y.; Xie, J. Q.; Li, J. Z.; Zeng, W.; Hu, C. W. Study on phenol oxidation with H2O2 catalyzed by Schiff base manganese complexes as mimetic peroxidase. Journal of the Serbian Chemical Society 2005, 70 (10), 1137.

[491] Zhang, J.; Tang, Y.; Li, G.; Hu, C. Room temperature direct oxidation of benzene to phenol using hydrogen peroxide in the presence of vanadium-substituted heteropolymolybdates. Applied Catalysis A: General 2005, 278 (2), 251.

[492] Yu, T.; Hu, C.; Wang, X. Direct amination of toluene with hydroxylamine in the presence of vanadium-based catalysts. Chemistry Letters 2005, 34 (3), 406.

[493] Xia, Y. S.; Zhu, L. F.; Li, G. Y.; Hu, C. W. Direct oxido-amination of benzene to aniline over nickel-vanadium catalysts. Acta Physico - Chimica Sinica 2005, 21 (12), 1337.

[494] Wang, J. Y.; Hu, C. W.; Xiao, S. X. DFT studies on the protonation of bicapped-Keggin-type heteropolyanion [H4As3Mo12O40]- and Keggin-type heteropoly acids H3PM12O40 (M=Mo, W). Acta Chimica Sinica 2005, 63 (16), 1483.

[495] Qin, S.; Hu, C.; Yang, H.; Su, Z. Theoretical study on the reaction mechanism of the gas-phase H 2/CO2/Ni(3D) system. Journal of Physical Chemistry A 2005, 109 (29), 6498.

[496] Qin, S.; Hu, C.; Yang, H. Theoretical study on the mechanism of the reaction of Ni(d101S) + H2 + CO2 → NiCO + H2O. Journal of Theoretical and Computational Chemistry 2005, 4 (2), 449.

[497] Qin, S.; Hu, C.; Su, Z. Theoretical study on the mechanism of the reaction of Li2O with CH4. Journal of Molecular Structure: THEOCHEM 2005, 719 (1-3), 201.

[498] Kou, X. M.; Hu, Y.; Tian, Y. H.; Meng, X. G.; Hu, C. W.; Zeng, X. C. Catalytic hydrolysis of p-nitrophenyl picolinate (PNPP) by a dinuclear copper(II) complex of an octaaza di-macrocyclic ligand. Chinese Journal of Inorganic Chemistry 2005, 21 (1), 51.

[499] Zhang, J.; Tang, Y.; Luo, Q.; Jian, M.; Hu, C. W. Study on the synthesis of heteropoly acids containing different amount of V and Mo and their catalytic performance for the direct hydroxylation of benzene to phenol. Chinese Journal of Inorganic Chemistry 2004, 20 (8), 935.

[500] Xie, J. Q.; Li, J. Z.; Meng, X. G.; Hu, C. W.; Zeng, X. C.; Li, S. X. A kinetic study of phenolic oxidation by H2O2 using the Schiff base complexes as mimetic peroxidases. Transition Metal Chemistry 2004, 29 (4), 388.

[501] Xie, J. Q.; Cheng, S. Q.; Jiang, B. Y.; Du, J.; Hu, C. W.; Zeng, X. C. Metallomicelles made of dinuclear copper(II) complexes of oxamido-bridge as symmetric two-center catalysts of the cleavage of carboxylic acid esters. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2004, 235 (1-3), 137.

[502] Wang, J. Y.; Hu, C. W.; Li, P.; Xiang, M. L.; Xiao, S. X. DFT-DVM study on the bi-capped Keggin type heteropoly anions [PM 12O40(VO)2]n-(M = Mo, n = 5; M = V, n = 9). Acta Chimica Sinica 2004, 62 (23), 2313.

[503] Meng, X. G.; Guo, Y.; Hu, C. W.; Zeng, X. C. Mimic models of peroxidase - Kinetic studies of the catalytic oxidation of hydroquinone by H 2O 2. Journal of Inorganic Biochemistry 2004, 98 (12), 2107.

[504] Li, S. X.; Li, J. Z.; Xie, J. Q.; Chen, Y.; Meng, X. G.; Hu, C. W.; Zeng, X. C. Studies on Schiff base complexes containing Cu(II) used as mimetic peroxidase. Acta Chimica Sinica 2004, 62 (6), 567.

[505] Jiang, B. Y.; Xie, F.; Xie, J. Q.; Jiang, W. D.; Hu, C. W.; Zeng, X. C. Investigation of carboxyl acid ester hydrolyses catalyzed by micellar copper(II) oximato complexes. Journal of Dispersion Science and Technology 2004, 25 (2), 139.

[506] Jiang, B. Y.; Xiang, Y.; Du, J.; Xie, J. Q.; Hu, C. W.; Zeng, X. C. Hydrolysis of p-nitrophenyl picolinate catalyzed by divalent metal ion complexes containing imidazole groups in micellar solution. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2004, 235 (1-3), 145.

[507] Jiang, B. Y.; Du, J.; Hu, C. W.; Zeng, X. C.; Cao, Y. S. Comparative reactivity of phosphate ester hydrolysis catalyzed by mononuclear and hetero-dinuclear complexes containing the lanthanum ion (III). Transition Metal Chemistry 2004, 29 (4), 361.

[508] Huang, X.; Zeng, L.; Hu, C.; Yang, Z. Study of acrylonitrile hydration catalyzed by nitrile hydratase to arylamide. Petrochemical Technology 2004, 33 (10), 978.

[509] Hu, C.; Zhang, H.; Wu, J. The Co-activation of CH4 and CO2 to syngas and ethylene simultaneously. In ACS Division of Fuel Chemistry, Preprints, 2004; Vol. 49.

[510] Hu, C.; Zhang, H.; Wu, J. Coactivation of CO2 and CH4 simultaneously to ethylene and synthesis gas. In ACS National Meeting Book of Abstracts, 2004; Vol. 227, pp FUEL.

[511] Hu, C.; Qin, S.; Tian, A.; Wong, N. B. Theoretical study on the mechanism of Ni(d10 1S)+CO2+3H2 → NiO+CH4+H2O reaction. In ACS Division of Fuel Chemistry, Preprints, 2004; Vol. 49.

[512] Hu, C.; Qin, S.; Tian, A. Theoretical study on the mechanism of Ni(D10 1S)+CO2+3H2 → NiO+CH4+H2O reaction. In ACS National Meeting Book of Abstracts, 2004; Vol. 227, pp FUEL.

[513] Du, Y.; Qi, W.; Miao, X.; Li, G.; Hu, C. Chemical analysis of pubescens and its pyrolysis. Huagong Xuebao/Journal of Chemical Industry and Engineering (China) 2004, 55 (12), 2099.

[514] Xie, J. Q.; Jiang, B. Y.; Kou, X. M.; Hu, C. W.; Zeng, X. C.; Li, Y. T. Studies on the reaction kinetics and the mechanism of hydrolysis of bis(4-nitrophenyl) phosphate (BNPP) catalyzed by oxamido-bridged dinuclear copper(II) complexes in micellar solution. Transition Metal Chemistry 2003, 28 (7), 782.

[515] Xie, J. Q.; Chen, Y.; Zhang, B.; Meng, X. G.; Hu, C. W.; Zeng, X. C. Studies on thermokinetic characteristics reduced parameter method and its application. Acta Chimica Sinica 2003, 61 (8), 1175.

[516] Hu, C. W.; Yang, H. Q.; Wong, N. B.; Chen, Y. Q.; Gong, M. C.; Tian, A. M.; Li, C.; Li, W. K. Theoretical study on the mechanism of the reaction of CH4 + MgO. Journal of Physical Chemistry A 2003, 107 (13), 2316.

[517] Hu, C. W.; Yang, H. Q.; Chen, Y. Q.; Gong, M. C.; Tian, A. M.; Wong, N. B. CH2 activation by naked Ni0 atom. A DFT study. Journal of Molecular Structure: THEOCHEM 2003, 639 (1-3), 35.

[518] Chen, T.; Fu, Z. J.; Zhu, L. F.; Liu, X. Q.; Hu, C. W.; Tian, A. M. Recent Advances in Synthesis of Phenol via Direct Catalytic Hydroxylation of Benzene. Petrochemical Technology 2003, 32 (6), 530.

[519] Yang, H. Q.; Chen, Y. Q.; Hu, C. W.; Gong, M. C.; Hu, H. R.; Tian, A. M.; Wong, N. B. Methane activation by naked Ni0 atom: A theoretical study. Chemical Physics Letters 2002, 355 (3-4), 233.

[520] Hu, C.; Tong, D. M. CO2 and CO methanation over two different nickel loading Ni/TiO2 catalysts. In ACS Division of Fuel Chemistry, Preprints, 2002; Vol. 47, pp 316.

[521] Chen, T.; Hu, C.; Fu, Z.; Tian, A. Advance in the synthesis of aromatic amine via direct amination. Chinese Science Bulletin 2002, 47 (23), 1937.

[522] Yang, H. Q.; Chen, Y. Q.; Hu, C. W.; Hu, H. R.; Gong, M. C.; Tian, A. M.; Wong, N. B. C-H bond activation: Ni(d101S) + CH4 → NiCH2 + H2. A DFT study. Journal of Molecular Structure: THEOCHEM 2001, 574 (1-3), 57.

[523] Ming, L.; Rugang, X.; Changwei, H.; Wang, X.; Tian, A. Quantum chemical study on enantioselective reduction of aromatic ketones catalyzed by chiral cyclic sulfur-containing oxazaborolidines. Part 1. Structures and properties of catalysts. International Journal of Quantum Chemistry 2000, 78 (4), 245.

[524] Chen, Y.; Hu, C.; Gong, M.; Zhu, X.; Chen, Y.; Tian, A. Chemisorption of methane over Ni/Al2O3 catalysts. Journal of Molecular Catalysis A: Chemical 2000, 152 (1-2), 237.

[525] Chen, Y.; Hu, C.; Gong, M.; Chen, Y.; Tian, A. Partial oxidation and chemisorption of methane over Ni/Al2O3 catalysts. In Studies in Surface Science and Catalysis, 2000; Vol. 130 D, pp 3543. DOI: 10.1016/s0167-2991(00)80572-8.

[526] Hu, C.; Hu, H.; Li, M.; Tian, A. Comparative study of the interaction of CO and CO2 with Ni2 cluster. Journal of Molecular Structure: THEOCHEM 1999, 491 (1-3), 155.

[527] Hu, C.; Hu, H.; Tian, A.; Chen, Y. Comparitive study of the interaction of CO and CO2 with nickel. Guang Pu Xue Yu Guang Pu Fen Xi/Spectroscopy and Spectral Analysis 1998, 18 (4), 32.

[528] Hu, C. W.; Yao, J.; Yang, H. Q.; Chen, Y.; Tian, A. M. On the inhomogeneity of low nickel loading methanation catalyst. Journal of Catalysis 1997, 166 (1), 1.

[529] Hu, C.; Chen, Y.; Li, P.; Min, H.; Chen, Y.; Tian, A. Temperature-programmed FT-IR study of the adsorption of CO and co- adsorption of CO and H2 on Ni/Al2O3. Journal of Molecular Catalysis A: Chemical 1996, 110 (2), 163.

 

 

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