四川大学化学学院
师资力量

于珊珊     副教授

研究方向:有机化学、分析化学

联系方式:028-85418580          Email:yushanshan@scu.edu.cn

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简历

2004.9   – 2008.6 武汉大学化学与分子科学学院,学士

2008.8   – 2013.6 美国University   of Virginia,博士

2013.11–至今四川大学化学学院,副教授

 

主要研究方向

主要从事对映选择性荧光传感器的研究

主要工作业绩


代表性成果 (获奖成果、专著、论文、专利)

1.     Xu, Y.; Yu, S.; Chen, Q.; Chen, X.; Xiao, M.; Chen, L.; Yu, X.; Xu, Y.; Pu,   L., Greatly Enhanced Fluorescence by Increasing the Structural Rigidity of an   Imine: Enantioselective Recognition of 1,2-Cyclohexanediamine by a Chiral   Aldehyde. Chemistry – A European Journal 2016, 22 (17),   5963-5968.

2.     Xu, Y.; Yu, S.; Chen, Q.; Chen, X.; Li, Y.; Yu, X.; Pu, L., Fluorescent   Recognition of 1,2-Diamines by a 1,1′-Binaphthyl-Based Trifluoromethyl   Ketone. Chemistry – A European Journal 2016, 22 (34),   12061-12067.

3.     Du, J.; Yu, S.; Huang, Z.; Chen, L.; Xu, Y.; Zhang, G.; Chen, Q.; Yu, X.; Pu,   L., Highly selective ratiometric fluorescent recognition of histidine by   tetraphenylethene-terpyridine-Zn(ii) complexes. RSC Advances 2016,   6 (30), 25319-25329.

4.     Wen, K.; Yu, S.; Huang, Z.; Chen, L.; Xiao, M.; Yu, X.; Pu, L., Rational   design of a fluorescent sensor to simultaneously determine both the   enantiomeric composition and the concentration of chiral functional amines. J.   Am. Chem. Soc. 2015, 137 (13), 4517-24.

5.     Yu, S.; Pu, L., Recent progress on using BINOLs in enantioselective molecular   recognition. Tetrahedron 2015, 71 (5), 745-772.

6.     Zhou, X.; Huang, Z.; Cao, Y.; Yu, S.; Yu, X.; Zhao, G.; Pu, L., Spectroscopic   studies on the interaction of terpyridine-CuCl2 with cysteine. RSC   Advances 2015, 5 (66), 53905-53910.

7.     Huang, Z.; Yu, S.; Wen, K.; Yu, X.; Pu, L., Zn(II) promoted dramatic   enhancement in the enantioselective fluorescent recognition of functional   chiral amines by a chiral aldehyde. Chemical Science 2014, 5   (9), 3457-3462.

8.     Huang, Z.; Yu, S.; Zhao, X.; Wen, K.; Xu, Y.; Yu, X.; Xu, Y.; Pu, L., A   Convenient Fluorescent Method to Simultaneously Determine the Enantiomeric   Composition and Concentration of Functional Chiral Amines. Chemistry-a   European Journal 2014, 20 (50), 16458-16461.

9.      Yu, S.; Plunkett, W.; Kim, M.; Wu, E.; Pu, L.,   1,1'-Bi-2-naphthol-fluoroacetyl compounds in fluorescent recognition of   amines. Organic Chemistry Frontiers 2014, 1 (4),   395-404.

10.    Yu, S.; Pu, L., Chiral Recognition by Fluorescence: One Measurement for Two   Parameters. Advances in Chemistry 2014, 2014, 14.

11.    Yu, S. S.; Plunkett, W.; Kim, M.; Wu, E.; Sabat, M.; Pu, L., Molecular   Recognition of Aliphatic Diamines by 3,3 '-Di(trifluoroacetyl)-1,1 '-bi-2-naphthol.   J. Org. Chem. 2013, 78 (24), 12671-12680.

12.    Yu, S. S.; Pu, L., One enantiomeric fluorescent sensor pair to discriminate   four stereoisomers of threonines. Science China-Chemistry 2013,   56 (3), 301-306.

13.    Yu, S. S.; Plunkett, W.; Kim, M.; Pu, L., Simultaneous Determination of Both   the Enantiomeric Composition and Concentration of a Chiral Substrate with One   Fluorescent Sensor. J. Am. Chem. Soc. 2012, 134 (50),   20282-20285.

14.    Yu, S. S.; DeBerardinis, A. M.; Turlington, M.; Pu, L., Study of the   Fluorescent Properties of Partially Hydrogenated 1, 1 '-Bi-2-naphthol-amine   Molecules and Their Use for Enantioselective Fluorescent Recognition. J.   Org. Chem. 2011, 76 (8), 2814-2819.

15.    Yu, S. S.; Pu, L., Pseudoenantiomeric Fluorescent Sensors in a Chiral Assay. J.   Am. Chem. Soc. 2010, 132 (50), 17698-17700.

 

 

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