简历:
2001年-2005年,伟德bevictor中文版,bevictor伟德,本科/学士,导师:陈华教授
2005年-2008年,伟德bevictor中文版,bevictor伟德,研究生/硕士,导师:陈华教授
2008年-2011年,伟德bevictor中文版,bevictor伟德,研究生/博士,导师:陈华教授
2007年-2009年,新加坡国立大学,理学院,联合培养,导师:陈萍研究员
2009年-2010年,中国科学院大连化学物理研究所,联合培养,导师:陈萍研究员
2011年至今,伟德bevictor中文版,bevictor伟德,副教授。
主要研究方向
膦配体的合成及其金属配合物的研究与应用
电化学还原偶联插羰
主要工作业绩
致力于开发具有国际领先或先进水平的新型催化材料和体系,本项目合成了一系列与铑具有多个螯合点的膦配体,深入研究配体结构与性能的关系,并将其应用于煤油资源的高效利用和费托烯烃的高选择性转化为高附加值精细化学品和关键化工原料生产中。通过配位自组装策略构建一系列具有动态配位点的超分子催化剂,这些催化剂用于将煤制油副产资源高效转化为高碳醇,表现出对热和空气的优异稳定性,能够在均相反应后实现两相分离,连续运转超过100小时仍能保持催化性能。同时,在水溶性铑膦配合物催化的水/有机及液-液两相烯烃氢甲酰化反应方面,针对催化剂的分离和循环使用问题进行了深入研究。通过引入一些特殊的添加剂或构建聚合物催化剂,在保证催化剂活性和选择性的前提下,有效减少了铑的流失(<0.01 wt%),延长了催化剂的使用寿命。催化剂在循环使用40次后仍能保持其催化活性和选择性,且不需要额外补加催化剂或配体。近两年,在电催化还原偶联和芳环C-H烯基化反应方面开展了相关研究工作。
专注于《有机化学》、《有机化学实验》等理论和实验课程教学。爱岗敬业,积极更新或引入先进教学理念,创新教学方法,采用探究式教学、翻转课堂和手机互动教学,使员工积极参与教学活动,显著地提高教学质量。荣获伟德bevictor中文版“未来教学名师”、“优秀教师”称号、“探究式-小班化”教学竞赛一等奖、青年教师教学比赛二等奖、“十佳关爱员工教师奖”等,连续多年被评为本科课堂教学质量优秀奖。
以第一作者或通讯作者在Energy Environ Sci, J Mater Chem, J Catal, Org Lett, J Org Chem, J Phys Chem C和 Chin Chem Lett等杂志上发表学术论文27篇,被引596次(H-index 11)。授权发明专利15项。出版教材1本,主持国家自然科学基金1项,省科技厅项目2项。
主持科研项目:
项目来源 |
项目名称 |
四川省科技厅面上项目 |
电催化饱和酮制备芳杂环的研究(2023NSFSC0103,2023-2024,20万) |
青岛三力本诺新材料股份有限公司 |
一种亚磷酰胺羰基氢化铑催化剂及制备方法和应用(技术转让,2024-2026,200万) |
宁波德欣科技有限公司 |
均三甲苯胺制备技术开发(技术委托,2021.11-2022.11,21H1184,50万) |
盘锦三力中科新材料有限公司 |
一种利用丙醛工业废液制备草莓酸的方法(技术转让,2021.06-2022.06,21Z0045,40万元) |
四川省科技厅重点项目 |
煤制油高碳烯烃氢甲酰化催化剂及其催化体系的开发研究(2019-2020,20万元) |
绿色催化四川省高校重点实验室开放基金 |
新型膦配体的合成及其在内烯烃异构化/氢甲酰化反应中的应用研究(2014-2017,12万元) |
国家自然科学基金青年基金 |
膦胺类双膦配体的合成及其在内烯烃氢甲酰化反应中的应用(2013-2015,25万元) |
代表性成果(获奖成果、专著、论文、专利)
出版教材:
1. 王玉良,陈静蓉,郑学丽,何树华《有机化学实验》,科学出版社,2020.8,副主编
2. 王玉良,陈华《有机化学实验》,化学工业出版社,2014.12,参编
参编英文专著:
主编:Li, C.; Liu, Y.
书名:Bridging Heterogeneous and Homogeneous Catalysis: Concepts, Strategies, and Applications,2014,
章节:Hydroformylation of Olefins in Aqueous-Organic Biphasic Catalytic Systems
以通讯和第一作者发表的代表性论文:
1. Peng, X.; Tao, S.; Xue, W.; Fu, H.; Xu, J.; Li, R.; Chen, H.; Zheng, X.* Organoboron-Promoted Electrochemical Chlorosulfonylation of Alkenes with Sulfonyl Chlorides, Org Lett 2024, 26, 4018-4023.
2. Luo, M.; Liu, Z.; Chen, H.; Fu, H.; Li, R.; Zheng, X.* Bifunctional diphosphine ligand-enabled cobalt catalyzed bis-alkoxycarbonylation of alkynes, J Catal 2024, 433, 115459.
3. Liu, Z.; Zheng, X.;* Fu, H.; Yuan, M.; Li, R.; Chen, H.* Rhodium-catalyzed hydroformylation of strained dialkenes: Ligand effect on product selectivity and complex coordination mode, J. Catal. 2023, 422, 77.
4. Tao, S. K.; Chen, S. Y.; Feng, M. L.; Xu, J. Q.; Yuan, M. L.; Fu, H. Y.; Li, R. X.; Chen, H.; Zheng, X. L.;* Yu, X. Q. Electrochemical Cross-Dehydrogenative Aromatization Protocol for the Synthesis of Aromatic Amines, Org Lett, 2022, 24, 1011-1016.
5. Zhao, J.#; Zheng, X. L.;# Tao, S.; Zhu, Y.; Yi, J.; Tang, S.; Li, R.; Chen, H.; Fu, H.; * Yuan, M.,* Selective Rhodium-Catalyzed Hydroformylation of Terminal Arylalkynes and Conjugated Enynes to (Poly)enals Enabled by a π Acceptor Biphosphoramidite Ligand. Org Lett 2021, 23, 6067.
6. Tang, J.; Chen, X.; Zhao, C. Q.; Li, W. J.; Li, S.; Zheng, X. L.*; Yuan, M. L.; Fu, H. Y.*; Li, R. X.; Chen, H. Iodination/Amidation of the N-Alkyl (Iso)quinolinium Salts. J Org Chem 2021, 86, 716.
7. Yi, J.; Zhao, J.; Tang, S.; Yang, C.; Fu, H.; Zheng, X. L.*; Chen, H.*; Yuan, M.; Li, R. A novel biphasic and recyclable system based on formamide for the hydroformylation of long-chain alkenes with water-soluble phosphine rhodium catalyst. Mol Catal 2021, 505, 111502.
8. Jiang, Y.; Li, C.; Tang, S.; Tao, S.; Yuan, M.; Li, R.; Chen, H.; Fu, H.; Zheng, X.* Practical Synthesis of (Z)-α,β-Unsaturated Nitriles via a One-Pot Sequential Hydroformylation/Knoevenagel Reaction, J Org Chem, 2021, 86: 15413-15422.
9. Tang, S.; Jiang, Y.; Yi, J.; Duan, X.; Fu, H.; Li, R.; Yuan, M.; Chen, H.; Yang, C.; Zheng, X. Highly regioselective homogeneous isomerization-hydroformylation of 2-butene with water- and air-stable phosphoramidite bidentate ligand. Mol Catal 2021, 508, 111598.
10. Zhao, J.; Yi, J.; Yang, C.; Wan, K.; Duan, X.; Tang, S.; Fu, H.; Zheng, X. L.*; Yuan, M.*; Li, R.; Chen, H. A Novel Strategy of Homogeneous Catalysis and Highly Efficient Recycling of Aqueous Catalyst for the hydroformylation of Higher Olefins Based on a Simple Methanol/Water Mixed Solvent. Catal Lett 2021,151, 1273–1281 .
11. Wan, K.; Zhao, J.; Qin, S.; Zheng, X. L.*; Fu, H.; Li, R.; Chen, H.*; Yang, J.; Yang, C. Linear‐selective hydroformylation of vinyl ether using Rh (acac)(2,2′‐ bis{(di[1H‐indol‐1‐yl]phosphanyl)oxy}‐1,1′‐binaphthalene) – Possible way to synthesize 1,3‐propanediol. Applied Organometallic Chemistry, 2020, 34(10): e5863.
12. Li, C.; Wan, K. F.; Guo, F. Y.; Wu, Q. H.; Yuan, M. L.; Li, R. X.; Fu, H. Y.; Zheng, X. L.*; Chen, H.*, Iridium-Catalyzed Alkylation of Amine and Nitrobenzene with Alcohol to Tertiary Amine under Base- and Solvent-Free Conditions. J Org Chem 2019, 84, (4), 2158-2168.
13. Zhou, F.; Zhang, L.; Wu, Q.; Guo, F.; Tang, S.; Xu, B.; Yuan, M.; Fu, H.; Li, R.; Zheng, X. L.*, Chen, H.*, A new air-stable and reusable tetraphosphine ligand for rhodium-catalyzed hydroformylation of terminal olefins at low temperature. Appl Organometal Chem 2019, 33, (1), e4646.
14. Yang, X.; Sun, R.; Zhang, C.; Zheng, X. L.*; Yuan, M.; Fu, H.*; Li, R.; Chen, H., Iridium-Catalyzed Benzylamine C-H Alkenylation Enabled by Pentafluorobenzoyl as the Directing Group. Org Lett 2019, 21, (4), 1002-1006.
15. Liu, Y.-l.; Zhao, J.-g.; Zhao, Y.-j.; Liu, H.-M.; Fu, H.-y.; Zheng, X. L.*; Yuan, M.-l.*; Li, R.-x.; Chen, H., Homogeneous hydroformylation of long chain alkenes catalyzed by water soluble phosphine rhodium complex in CH3OH and efficient catalyst cycling. RSA Adv 2019, 9, (13), 7382-7387.
16. Hu, X.; Chen, H.; Zhao, L.; Miao, M.-s.; Zheng, X. L.*; Zheng, Y.*, Nitrogen-coupled blatter diradicals: the fused versus unfused bridges. J Mater Chem C 2019, 7, 10460-10464.
17. Zhao, Y.; Liu, Y.; Wei, J.; Fu, H.; Zheng, X. L.*; Yuan, M.*; Li, R.; Chen, H., Nonaqueous Biphasic Hydroformylation of Long Chain Alkenes Catalyzed by Water Soluble Phosphine Rhodium Catalyst with Polyethylene Glycol Instead of Water. Catal Lett 2017, 148, (1), 438-442.
18. Wu, Q.; Zhou, F.; Shu, X.; Jian, L.; Xu, B.; Zheng, X. L.*; Yuan, M.; Fu, H.; Li, R.; Chen, H.*, Synthesis and application of PNP pincer ligands in rhodium-catalyzed hydroformylation of cycloolefins. RSC Adv. 2016, 6, (109), 107305-107309.
19. Han, W.; Qin, S.; Shu, X.; Wu, Q.; Xu, B.; Li, R.; Zheng, X. L.*; Chen, H.*, Synthesis of phosphorus amidite ligand and investigation of its flexibility impact on rhodium-catalyzed hydroformylation of 1-octene. RSC Adv. 2016, 6, (58), 53012-53016.
20. Zheng, X. L.; Zheng, C.-Y.; Zhou, F.-D.; Fu, H.-Y.; Yuan, M.-L.; Li, R.-X.; Xu, B.; Chen, H., Highly active rhodium/phosphorus catalytic system for the hydroformylation of α-methylstyrene. Chin Chem Lett 2016, 27, (5), 678-680.
21. Zheng, X. L.; Chua, Y.; Xiong, Z.; Chen, W.; Jiang, Z.; Wu, G.; Chen, P., The effect of NH3 content on hydrogen release from LiBH4–NH3 system. Int J Hydrogen Energ 2015, 40, (13), 4573-4578.
22. Zheng, X. L.; Yang, Q.; Li, Z.; Zhu, Z.; Cui, X.; Fu, H.; Chen, H.; Li, R., Trans-chloro-(1-naphthyl)bis[tris-(4-methoxyphenyl)phosphane]-nickel(II) catalyzed Suzuki-Miyaura coupling of aryl chlorides with phenylboronic acid. Catal Commun 2014, 57, 143-147.
23. Du, Y. Zheng, X. L.*, Enantioselective Hydrogenation of Ethyl Pyruvate Catalyzed by 1,2-Diphenyl-ethylenediamine-Modified Iridium Complex: Effect of Solvent. Asian J Chem 2014, 26, 2.
24. Zheng, C.Y.; Mo, M.; Liang, H.R.; Zheng, X.L.; Fu, H.Y.; Yuan, M. L.; Li, R.X.; Chen, H. Rhodium/bisphosphite catalytic system for hydroformylation of styrene and its derivatives. Appl Organomet Chem 2013, 27, 474-478..
25. Zheng, X. L.; Wu, G. T.; He, T.; Chu, H. L.; Chen, H.; Chen, P., Improved hydrogen desorption properties of Co-doped Li2BNH6. Chin Sci Bull 2011, 56, (23), 2481-2485.
26. Zheng, X. L.; Wu, G. T.; Li, W.; Xiong, Z. T.; He, T.; Guo, J. P.; Chen, H.; Chen, P., Releasing 17.8 wt% H2 from lithium borohydride ammoniate. Energy Environ Sci 2011, 4, (9), 3593-3600.
27. Zheng, X. L.; Xiong, Z. T.; Lim, Y. H.; Wu, G. T.; Chen, P.; Chen, H., Improving Effects of LiH and Co-Catalyst on the Dehydrogenation of Li4BN3H10. J Phys Chem C 2011, 115, (17), 8840-8844.
28. Zheng, X. L.; Xu, W. L.; Xiong, Z. T.; Chua, Y. S.; Wu, G. T.; Qin, S.; Chen, H.; Chen, P., Ambient temperature hydrogen desorption from LiAlH4-LiNH2 mediated by HMPA. J Mater Chem 2009, 19, (44), 8426-8431.
29. Zheng, X. L.; Xiong, Z. T.; Qin, S.; Chua, Y. S.; Chen, H.; Chen, P., Dehydrogenation of LiAlH4 in HMPA. Int J Hydrogen Energ 2008, 33, (13), 3346-3350.
授权专利:
1. 郑学丽,陈华,易继伟,付海燕,袁茂林,李瑞祥.一种烯烃两相氢甲酰化制备醛类化合物的方法,2021.12.13,中国发明专利, ZL202110038259.5
2. 郑学丽,陈华,万可风,袁茂林,付海燕,李瑞祥.一种制备3-烷氧基丙醛的方法,2021.5.14,中国发明专利,ZL201911319787.7
3. 郑学丽,陈华,吴前辉,袁茂林,付海燕,李瑞祥.一种内烯烃氢甲酰化制醛的方法,2021.3.18,中国发明专利,ZL201911275658.2
4. 陈华,郑学丽,陈好迪,龚钰扉,方艺桥,孙仁义,一种利用丙醛工业废液制备草莓酸的方法,2020.10.16,中国发明专利,ZL201910375784.9
5. 郑学丽,陈华,周凡丁,袁茂林,付海燕,李瑞祥,一种用于烯烃氢甲酰化反应的催化剂及其制备方法和应用,2020.7.27,中国发明专利,ZL201811517497.9
6. 郑学丽,陈华,李超,李瑞祥,袁茂林,付海燕; 一种叔胺的合成方法,2020.5.5,中国发明专利, ZL 201811195053.8
7. 郑学丽,陈华,周凡丁,袁茂林,付海燕,李瑞祥. 用于烯烃氢甲酰化反应的催化剂及其制备方法和应用,2019.10.18,中国发明专利,ZL201810380774.X
8. 陈华,郑学丽,韩维彪,袁茂林,付海燕,李瑞祥,用于烯烃氢甲酰化反应的催化剂及其制备方法及应用,2018.10.22,中国发明专利,ZL201610398759.9
9. Chen, P.; Zheng, X.; Xiong, Z. High-capacity complex hydrogen storage materials and a process of releasing hydrogen. US Patent, 2012/0093714 A1.