1993年-至今，第三世界科学院，院士

2006年-至今，《Chemistry-An Asian Journal》编委

2009年-至今，《Bioanalytical Reviews》编委

2004年-至今，《Current Analytical Chemistry 》编委

1991年-至今，《Electroanalysis》编委

1987年-至今，《Microchemical Journal 》编委

1998年-至今，《Analytical Letters》编委

2000年-至今，《Analytical and Bioanalytical Chemistry》编委

发表SCI收录论文1000多篇，总引5万2千多次。H指数106（ 中国大陆h指数大于100共有12名）。国际大会报告和专题报告100多次，在27个国家和地区作学术报告200多次。获国家(自然科学奖4项)和省部级奖14项及吉林省首届科技进步特殊贡献奖，国际奖2项，发明专利40项。涉及分析化学、电化学与电分析化学、环境与生命科学分析。主编《21世纪的分析化学》（1999）和《生命分析化学》（2006），20世纪中国知名科学家学术成就概览（负责分析化学家部分）（2012），分析化学手册（第三版）（2017）。在美、法、日和香港的5所大学聘为客座教授。为九种国际化学杂志编委，国际顾问委员会委员；曾长期担任“分析化学”主编。2017年分别在全国电分析化学大会上和电化学大会上获电分析化学成就奖和电化学成就奖。在2014、2015、2016、2017和2018年连续五次跨15年获得化学领域汤森路透全球高被引科学家奖。

[1] J. Li, Z. Peng, E. Wang, Tackling Grand Challenges of the 21st Century with Electroanalytical Chemistry, Journal of the American Chemical Society 140 (2018) 10629-10638.
[2] W. Gu, L. Gan, X. Zhang, E. Wang, J. Wang, Theoretical Designing and Experimental Fabricating Unique Quadruple Multimetallic Phosphides with Remarkable Hydrogen Evolution Performance, Nano Energy 34 (2017) 421-427.
[3] L. Han, S. Dong, E. Wang, Transition-Metal (Co, Ni, and Fe)-Based Electrocatalysts for the Water Oxidation Reaction, Advanced Materials 28 (2016) 9266-9291.
[4] W. Hong, C. Shang, J. Wang, E. Wang, Bimetallic Pdpt Nanowire Networks with Enhanced Electrocatalytic Activity for Ethylene Glycol and Glycerol Oxidation, Energy & Environmental Science 8 (2015) 2910-2915.
[5] L. Guo, Y. Zhang, J. Wang, L. Ma, S. Ma, Y. Zhang, E. Wang, Y. Bi, D. Wang, W.C. McKee, Y. Xu, J. Chen, Q. Zhang, C. Nan, L. Gu, P.G. Bruce, Z. Peng, Unlocking the Energy Capabilities of Micron-Sized Lifepo4, Nature Communications 6 (2015) 7898.
[6] H. Li, S. Guo, Q. Liu, L. Qin, S. Dong, Y. Liu, E. Wang, Implementation of Arithmetic Functions on a Simple and Universal Molecular Beacon Platform, Advanced Science 2 (2015) 1500054.
[7] L. Zhang, J. Zhu, S. Guo, T. Li, J. Li, E. Wang, Photoinduced Electron Transfer of DNA/Ag Nanoclusters Modulated by G-Quadruplex/Hemin Complex for the Construction of Versatile Biosensors, Journal of the American Chemical Society 135 (2013) 2403-2406.
[8] X. Yang, L. Gan, L. Han, E. Wang, J. Wang, High-Yield Synthesis of Silver Nanoclusters Protected by DNA Monomers and Dft Prediction of Their Photoluminescence Properties, Angewandte Chemie International Edition 52 (2013) 2022-2026.
[9] H. Wei, E. Wang, Nanomaterials with Enzyme-Like Characteristics (Nanozymes): Next-Generation Artificial Enzymes, Chemical Society Reviews 42 (2013) 6060-6093.
[10] Y. Du, B. Li, E. Wang, “Fitting” Makes “Sensing” Simple: Label-Free Detection Strategies Based on Nucleic Acid Aptamers, Accounts of Chemical Research 46 (2013) 203-213.
[11] S. Guo, E. Wang, Functional Micro/Nanostructures: Simple Synthesis and Application in Sensors, Fuel Cells, and Gene Delivery, Accounts of Chemical Research 44 (2011) 491-500.
[12] T. Li, S. Dong, E. Wang, A Lead(Ii)-Driven DNA Molecular Device for Turn-on Fluorescence Detection of Lead(Ii) Ion with High Selectivity and Sensitivity, Journal of the American Chemical Society 132 (2010) 13156-13157.
[13] W. Guo, J. Yuan, Q. Dong, E. Wang, Highly Sequence-Dependent Formation of Fluorescent Silver Nanoclusters in Hybridized DNA Duplexes for Single Nucleotide Mutation Identification, Journal of the American Chemical Society 132 (2010) 932-934.
[14] T. Li, E. Wang, S. Dong, Potassium？Lead-Switched G-Quadruplexes: A New Class of DNA Logic Gates, Journal of the American Chemical Society 131 (2009) 15082-15083.