Ø 基本情况：

彭静，女，副教授。2016年于美国纽约市立大学获得化学博士学位，2016年9月开始于美国田纳西大学从事博士后研究，随后于2018年12月加入365best体育官网入口。

主要从事能源材料及材料腐蚀与防护方面的研究工作。目前已在ACS Nano, ACS Applied Materials & Interfaces，Carbon，Journal of Power Sources等国际知名期刊上发表30余篇论文。多次参与国际学术会议，2017年于美国国际电化学学会会议上作Keynote Presentation。现担任“Advances in Materials”期刊编辑、“稀有金属”期刊青年编委，并受邀担任“Journal of Power Sources”、“Journal of Membrane Science”、“Electrochimica Acta”等多个领域内权威期刊的审稿人。

Ø 主讲课程：

本科生课程：《有机化学》、《走进材料——从原子到器件》

Ø 研究方向：

（1）液流电池

（2）燃料电池

（3）材料腐蚀与防护

Ø 教学科研成果：

发明专利：

（1）授权发明专利“一种微乳液液流电池电解液及其制备方法”

代表性论文：

[1] Peng, J.; Zawodzinski, T. A., Describing ion exchange membrane-electrolyte interactions for high electrolyte concentrations used in electrochemical reactors. Journal of Membrane Science 2020, 593, 117340.

[2] Peng, J.; Cantillo, N. M.; Nelms, K. M.; Roberts, L. S.; Goenaga, G.; Imel, A.; Barth, B. A.; Dadmun, M.; Heroux, L.; Hayes, D. G.; Zawodzinski, T., Electron Transfer in Microemulsion-Based Electrolytes. Acs Appl Mater Inter 2020, 12 (36), 40213-40219

[3] Peng, J.; Wei, S.; Goenaga, G.; Weiss, C. M.; Neal, C. A.; Cantillo, N.; Zawodzinski, T. A., Investigate the equivalent weight effect on properties of perfluorosulfonic acid membrane in concentrated electrolytes. Electrochimica Acta 2022, 431, 141151.

[4] Peng, J.; Xiao, Y.; Imel, A.; Barth, B. A.; Cantillo, N. M.; Nelms, K. M.; Zawodzinski, T. A., Electrolyte effects on the electrochemical performance of microemulsions. Electrochimica Acta 2021, 393, 139048.

[5] Peng, J.; Xiao, Y.; Clarkson, D. A.; Greenbaum, S. G.; Zawodzinski, T. A.; Chen, X. C., A Nuclear Magnetic Resonance Study of Cation and Anion Dynamics in Polymer–Ceramic Composite Solid Electrolytes. ACS Applied Polymer Materials 2020, 2 (3), 1180-1189

[6] Peng, J.; Cantillo, N. M.; Xiao, Y.; Nelms, K. M.; Roberts, L. S.; Goenaga, G.; Imel, A.; Barth, B. A.; Dadmun, M.; Hayes, D. G.; Zawodzinski, T., Decoupling Conductivity and Solubility in Electrolytes Using Microemulsions. J Electrochem Soc 2021, 168 (8), 080502.

[7]. Peng, J.; Zawodzinski, T. A., Ion transport in phase-separated single ion conductors. Journal of Membrane Science 2018, 555, 38-44.

[8]. Peng, J.; Carbone, L.; Gobet, M.; Hassoun, J.; Devany, M.; Greenbaum, S., Natural Abundance Oxygen-17 NMR Investigation of Lithium Ion Solvation in Glyme-based Electrolytes. Electrochimica Acta 2016, 213, 606-612.

[9]. Peng, J.; Gobet, M.; Devany, M.; Xu, K.; Cresce, A. v. W.; Borodin, O.; Greenbaum, S., Multinuclear magnetic resonance investigation of cation-anion and anion-solvent interactions in carbonate electrolytes. J Power Sources 2018, 399, 215-222.

[10]. Peng, J.; Lou, K.; Goenaga, G.; Zawodzinski, T., Transport Properties of Perfluorosulfonate Membranes Ion Exchanged with Cations. Acs Appl Mater Inter 2018, 10 (44), 38418-38430.

[11]. Peng, J.; Roy, A. L.; Greenbaum, S. G.; Zawodzinski, T. A., Effect of CO2 absorption on ion and water mobility in an anion exchange membrane. J Power Sources 2018, 380, 64-75.

[12]. Peng, J.; Sergiienko, A.; Mangolini, F.; Stallworth, P. E.; Greenbaum, S.; Carpick, R. W., Solid state magnetic resonance investigation of the thermally-induced structural evolution of silicon oxide-doped hydrogenated amorphous carbon. Carbon 2016, 105, 163-175.

[13]. Peng, J.; Tian, M.; Cantillo, N. M.; Zawodzinski, T., The ion and water transport properties of K+ and Na+ form perfluorosulfonic acid polymer. Electrochimica Acta 2018, 282, 544-554.