四川大学化学学院
师资力量

王健礼     教 授

研究方向:物理化学

联系方式:028-85418451(Fax);13882289565          Email:wangjianli@scu.edu.cn

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简历

王健礼,男,理学博士,教授、博导,2007年博士毕业于四川大学物理化学专业,留校任职于四川大学化学学院。2011年晋升副教授。2017年晋升教授,2019年评为博导,四川省学术技术带头人后备人选,移动源污染控制国家工程实验室理事,移动源污染控制国家工程实验室理事,担任《化学动力学》,《物理化学实验》等课程的主讲教师,作为主编编写本科生教材2本,(《物理化学实验》第二版,化学工业出版社,王健礼,赵明主编20156月出版;《物理化学实验》化学工业出版社,龚茂初,王健礼,赵明主编20108月出版),科研工作一直从事环境催化、催化材料、机动车尾气净化催化剂及裂解催化剂的研究。项目负责人负责国家科技部首批重点研发计划课题1项(2016YFC0204903),自然科学基金面上项目(21972097)项目国防科技重大专项3项(JG2012036JG2013029JG2014080)等各类项目共计15项。目前已正式发表SCI论文50余篇(通讯作者或第一作者论文)。获四川省科技进步奖一等奖一项2项(20132017)。

 

主要研究方向

机动车尾气净化催化剂及催化材料

甲烷催化燃烧和工业有机挥发性气体的催化净化

吸热型碳氢燃料的催化裂解及高温热物性

主要工作业绩

近年来负责的项目

1.科技部国家重点研发计划项目,替代燃料车和摩托车污染排放控制技术与系统研究(2016YFC02049003, 负责人

2.国家自然科学基金面上项目,基于晶粒生长分步控制的高热稳定CeO2-ZrO2基储氧材料的制备及构效关系的研究(21972097),负责人

3.四川省科技支撑计划项目,稀土催化材料及产业化(2015GZ0054),负责人

4.横向项目:催化燃烧净化低浓度甲苯催化剂及活性炭性能评价16H0174  负责人

5.四川省重点实验开放基金 漆包线涂装废气的催化净化 负责人

6.国防科技重大专项,JG2012036 负责人

7.国防科技重大专项,JG2013029 负责人

8.国防科技重大专项,JG2014080 负责人

代表性成果 (获奖成果、专著、论文、专利)

1、主编教材

1)物理化学实验《物理化学实验》第二版,化学工业出版社,王健礼   赵明主编,20156

2)物理化学实验《物理化学实验》,化学工业出版社,龚茂初   王健礼 赵明主编,20108

2、获奖成果

1 )满足国V排放标准的天然气汽车尾气净化催化剂研究及应用    2017年四川省科技进步奖一等奖(排名第2

2 )国Ⅲ排放标准的摩托车尾气净化催化转化器研究及应用    2013四川省科技进步奖一等奖 (排名第7)

3、近三年来发表的论文

(1)Yanli   Liang, Chenying Ou, Hao Zhang, Xinmei Ding, Ming Zhao*, Jianli Wang* , and   Yaoqiang Chen. Advanced Insight into the Size Effect of PtPd Nanoparticles on   NO Oxidation by in Situ FTIR Spectra. Industrial & Engineering chemistry   Research, 2018, 57: 3887-3897.

(2)Yanli   Liang, Xinmei Ding, Ming Zhao*, Jianli Wang*, Yaoqiang Chen. Effect of   valence state and particle size on NO oxidation in fresh and aged Pt-based   diesel oxidation catalysts. Applied surface science, 2018, 443: 336-344.C

(3)Shanshan   Li, Jie Deng, Lei Xiong, Jianli Wang, Yaoqiang Chen, Long Jiang, Yi Dan,   Design and construct CeO2-ZrO2-Al2O3 materials with controlled structures via   co-precipitation method by using different precipitants, Ceramics   International,2018,44: 20929-20938 

(4)Yi   Jiao, Hua Zhang, Shanshan Li, Caihong Guo, Peng Yao, Jianli Wang*, Impact of   acidity in ZrO2-TiO2-Al2O3 composite oxides on the catalytic activity and   coking behaviors during n-decane cracking, Fuel, 2018,233: 724-731.

(5)Hailong   Zhang, Wei Hu, Caixia Zhou, Hongrui Liu, Peng Yao, Jianli Wang*, Yaoqiang   Chen*, A new understanding of CeO2-ZrO2 catalysts calcinated at different   temperatures: Reduction property and soot-O2 reaction, Applied Catalysis A,   2018, 563: 204-215.

(6)Hailong   Zhang, Shanshan Li, Qingjin Lin, Xi Feng, Yaoqiang Chen*, Jianli Wang*, Study   on hydrothermal deactivation of Pt/MnOx-CeO2 for NOx-assisted soot oxidation:   redox property, surface nitrates, and oxygen vacan-cies, Environmental   Science and Pollution Research, 2018, 25: 16061-16070.

(7)Yi   Zhou, Lei Xiong, Jie Deng, Jianli Wang, Shandong Yuan, Li Lan, Yaoqiang   Chen0.5, Facile synthesis of high surface area nanostructured   ce-ria-zirconia-yttrialanthana solid solutions with the assistance of lauric   acid and dodecylamine, Materials Research Bulletin, 2018, 99: 281-291.

(8)Yi   Zhou, Shanahan Li, Jie Deng, Lei Xiong, Jianli Wang, Yaoqiang Chen, Nanoscale   heterogeneity and low-temperature redox property of CeO2-ZrO2-La2O3-Y2O3   quaternary solid solution, Materials Chemistry and Physics, 2018, 208:   123-131.

(9)Tian-qiong   Cheng, Jing Qiu, Yusheng Chen, Shuang Yan, Min Sun, Jie Feng, Ming Zhao,   Jianli Wang0.5 and Yaoqiang Chen, Dispersion improvement and activity   promo-tion of Pt catalysts supported on a Ce-based support by pH adjustment,   New Journal of Chemistry, 2018, 42, 15639-15647.

(10)H.   Zhang, Z. Z. Wang, S. S. Li, Y. Jiao, J. L. Wang*, Q. Zhu, X. Y. Li.   Correlation between structure, acidity and activity of Mo-promoted Pt/   ZrO2-TiO2-Al2O3 catalysts for n-decane catalytic cracking, Applied Thermal   Engineering, 111 (2017) 811–818. 

(11) Haidi   Xu, Xi Feng, Shuang Liu, Yun Wang, Mengmeng Sun, Jianli Wang*, Yaoqiang   Chen*, Promotional effects of Titanium additive on the surface properties,   active sites and catalytic activity of W/CeZrOx monolithic catalyst for the   selective catalytic reduction of NOx with NH3, Applied Surface Science,   2017,419, 697-707.

(12)Haidi   Xu, Qingjin Lin, Yun Wang, Li Lan, Shuang Liu, Chenlu Lin, Qin Wang, Jianli   Wang*,Yaoqiang Chen*, Promotional effect of niobium substitution on the   low-temperature activity of a WO3/CeZrOx monolithic catalyst for the   selective catalytic reduction of NOx with NH3, RSC Advances, 2017, 7, 47570-47582.

(13)Haidi   Xu, Mengmeng Sun, Shuang Liu, Yuanshan Li, Jianli Wang*,Yaoqiang Chen*,   Effect of the calcination temperature of cerium-zirconium mixed oxides on the   structure and catalytic performance of WO3/CeZrO2 monolithic catalyst for   selective catalytic reduction of NOx with NH3. RSC Advances, 2017, 7, 24177-24187.

(14)Yi   Zhou, Jie Deng, Li Lan, Jianli Wang*, Shandong Yuan, Maochu Gong, Yaoqiang   Chen*, Remarkably promoted low-temperature reducibility and thermal stability   of CeO2-ZrO2-La2O3-Nd2O3 by a urea-assisted low-temperature (90 °C)   hydrothermal procedure, Journal of Materials Science, 2017, 52, 5894-5907.

(15)Yi   Zhou, Jie Deng, Lei Xiong, Jianli Wang*, Shandong Yuan, Hailong Zhang,   Yaoqiang Chen*, Synthesis and study of nanostructured Ce-Zr-La-RE-O (RE =Y,   Nd and Pr) quaternary solid solutions and their supported three-way   catalysts, Materials & Design, 2017,130, 149-156.

(16)Yi   Zhou, Xiaoqiang Chen, Shanshan Li, Lei Xiong, Shuang Yan,Jianli Wang*,   Yaoqiang Chen, Promotional effect of alkyl acids on thermal stability of   nanostructured CeO2-ZrO2-Y2O3-La2O3 and its application in automotive   three-way catalysts, Materials Science & Engineering B, 2017,225, 10-19.

(17) Yufen   Huang, Hailong Zhang, Zhengzheng Yang, Ming Zhao*, Mulan Huang, Yanli Liang,   Jianli Wang*,Yaoqiang Chen*, Effects of CeO2 Addition on Improved NO   oxidation activities of Pt/SiO2-Al2O3diesel oxidation catalysts, Acta Phys.   Chim. Sin. 2017, 33 (6), 12421252.

(18)Yanli   Liang, Ming Zhao*, Jianli Wang*, Mengmeng Sun, Shanshan Li, Yufen Huang, Lin   Zhong, Maochu Gong, Yaoqiang Chen, Enhanced activity and stability of the   monolithic Pt/SiO2-Al2O3 diesel oxidation catalyst promoted by suitable   tungsten additive amount, Journal of Industrial and Engineering Chemistry,   2017,54, 359-368.

(19)Yanli   Liang, Yufen Huang, Hailong Zhang, Li Lan, Ming Zhao*, Maochu Gong, Yaoqiang   Chen, Jianli Wang*, Interactional effect of cerium and manganese on NO   catalytic oxidation, Enviromental Science and Pollution Research, 2017, 24,   9314-9324.

(20)Hailong   Zhang, Shandong Yuan, Jianli Wang*, MaoChu Gong, Yaoqiang Chen*, Effects of   contact model and NOx on soot oxidation activity over Pt/ MnOx-CeO2 and the   reaction mechanisms, Chemical Engineering Journal, 2017,327, 1066-1076.

(21)Hailong   Zhang, Zhongyan Hou, Yi Zhu, Jianli Wang*, Yaoqiang Chen*, Sulfur   deactivation mechanism of Pt/MnOx-CeO2 for soot oxidation: Surface property   study, Applied Surface Science, 2017,396, 560-565.

(22)   Shanshan Li, Caihong Guo, Hua Zhang, Zhongzheng Wang, Yi Jiao,Jianli Wang*   Quan Zhu, Xiangyuan Li, Yaoqiang Chen*, High hydrogen selectivity and   anti-carbon ability by cracking of RP-3 jet fuel overPt/ZrO2-TiO2-Al2O3   catalyst modified by MxOy (M = Ba, Sr and Ce) promoters, International   Journal o f Hydrogen Energy, 2017, 42, 11252-11261.

(23)Shanshan   Li,Zhongzheng Wang, Hua Zhang, Zhizhou Liu, Jianli Wang*,Quan Zhu,Xiangyuan   Li, Yaoqiang Chen, The effects of MxOy(M = K, Ba, and Sr) Promoters on   inhibiting carbondeposit during catalytic cracking reactions, Journal of   Analytical and Applied Pyrolysis, 2017, 123, 269-277.

(24)Hailong   Zhang, Jianli Wang*, Yanhua Zhang, Yi Jiao, Chengjun Ren, Maochu Gong,   Yaoqiang Chen*, A study on H2-TPR of Pt/Ce0.27Zr0.73O2 and   Pt/Ce0.27Zr0.70La0.03 for soot oxidation Applied Surface Science   2016,377,48-55.

(25)ShanshanLi,YiJiao,ZhongzhengWang,JianliWang*,QuanZhu,XiangyuanLi,Yaoqiang   Chen, Performance of RP-3 kerosene cracking over Pt/WO3–ZrO2 catalyst.    Journal of Analytical and Applied Pyrolysis, 2015,113,736-742.

 

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