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姓名:彭娟 通讯地址:js6668金沙登录入口(邮编:750021) E-mail: pengjuan@nxu.edu.cn; 83083665@qq.com.
研究领域: 1) 电催化材料及机理研究,包括CO2转化、电解制氢等关键技术; 2) 有机小分子的电化学合成;生物质电催化转化 3) 扫描电化学显微镜 4)纳米生物传感器。 |
个人简介:
彭娟,博士,js6668金沙登录入口教授,博士生导师。2016年入选宁夏“百人计划”人才,2018年入选自治区科技创新领军人才。2023、2024年入选全球前2%顶尖科学家榜单。主持完成3项国家自然科学基金项目及多项省部级项目。在研主持国家自然科学基金项目地区项目1项,重点项目子课题1项及多项省部级项目。以第一作者或通讯作者发表学术论文60余篇,单篇最高被引2000余次。相关文章发表在高质量期刊如Nano Letters, Small, Journal of Materials Chemistry A, Materials Today Nano, Materials Today Advances, ACS Applied Materials and Interfaces等。授权发明专利2项,实用新型专利1项。1篇文章入选“中国最具国际影响百篇论文”。获第六届中国侨界贡献创新人才奖。获宁夏科技进步奖三等奖(排名2),指导研究生获得宁夏回族自治区优秀硕士学位论文;荣获宁夏优秀自然科学论文一等3项,二等奖2项,三等奖1项。指导本科生和研究生获自治区“互联网+”创新创业大赛银奖和铜奖,指导本科生创新创业项目国家级2项,区级3项。主编教材1部,参编教材2部。
工作经历:
2023.01至今 js6668金沙登录入口化,学化工学院,教授
2015.08-2022.12 js6668金沙登录入口,js6668金沙登录入口,副教授
2019.03-2020.03 新加坡南洋理工大学,材料工程学院,CSC访问学者,合作导师:颜清宇,刘政
2012.08-2015.07js6668金沙登录入口,js6668金沙登录入口,讲师
学习经历:
2010.09-2011.11 美国莱斯大学材料工程学院,联合培养博士生,导师:P.M. Ajayan
2008.09-2012.06南京大学js6668金沙登录入口,博士,导师:朱俊杰,姜立萍
2004.09-2007.07js6668金沙登录入口,硕士,导师:高作宁
2000.09-2004.07js6668金沙登录入口,学士
近5年代表性学术论文(一作或通讯):
1.Enhancing the Stability of Cu-based Electrocatalyst Via Fe Alloy in Electrocatalytic Formaldehyde Oxidation With Long Durability[J]. Advanced Functional Materials, 2024.
2.Recent progress in modular electrochemical synthesis of hydrogen and high value-added chemicals based on solid redox mediator[J]. Small 2024, 2310573.
3.Recent advances in scanning electrochemical microscopy for probing the sites in electrocatalysts[J]. Journal of Materials Chemistry A, 2024, 18733-18750.
4.Ultrathin Carbon Shell Protecting Copper Sites to Boost Anodic Hydrogen Production via Low-Potential Formaldehyde Oxidation[J]. ACS Applied Materials & Interfaces, 2024, 16(33): 43582-43590.
5.Electrochemical Conversion of CO2 into Formate Boosted by In Situ Reconstruction of Bi-MOF to Bi2O2CO3 Ultrathin Nanosheets[J]. ACS Applied Materials & Interfaces 2024, 16 (11), 13882-13892
6.Microfabrication and electrochemical behaviors of single microcrystal of copper-doped sodium chloride solid solution[J]. Electrochimica Acta, 2024, 485: 144125.
7.Self-Supporting Bi−Sb Bimetallic Nanoleaf for Electrochemical Synthesis of Formate by Highly Selective CO2 Reduction[J]. ACS Appl. Mater. Interfaces 2023, 15, 6942−6950
8.Modular electrochemical production of hydrogen using Mott–Schottky Co9S8/Ni3S2 heterojunction as a redox mediator[J]. International Journal of Hydrogen Energy, 2023,48, 16184-16197.
9.A Mn single atom catalyst with Mn–N2O2 sites integrated into carbon nanosheets for efficient electrocatalytic CO2 reduction[J]. Journal of Materials Chemistry A,2022, 10 (20), 10892-10901.
10.Bismuth-nickel bimetal nanosheets with a porous structure for efficient hydrogen production in neutral and alkaline media[J]. Nanoscale 14 (2022) 17210-17221.
11.Recent advances in 2D transition metal compounds for electrocatalytic full water splitting in neutral media[J]. Materials Today Advances 2020, 8, 100081.
12.Recent advances in the application of phosphates and borates as electrocatalysts for water oxidation[J]. Materials Today Nano 2020: 100095.
13.Juan Peng, Xueping Yu, Yang Meng, Huiteng Tan, Pin Song, Zheng Liu * and Qingyu Yan*. Oxygen doped MoS2 quantum dots for efficient electrocatalytic hydrogen generation [J]. The journal of chemical physics. 2020. 152(13): 134704-134715.
14.Recent Progress on 2D Transition Metal Compounds-based Electrocatalysts for Efficient Nitrogen Reduction[J]. Chemical Research in Chinese Universities 2020, 36 (4), 648-661.
15.Recent Progress on Bismuth-based Nanomaterials for Electrocatalytic Carbon Dioxide Reduction[J]. Chemical Research in Chinese Universities 2020, 36 (3), 410-419.
16.Self-assembly of Au/MoS2 quantum dots core-satellite hybrid as efficient electrocatalyst for hydrogen production [J]. Tungsten, 2020, 2:194–202.
17.Ethylenediamine functionalized MoS2 quantum dots for terramycin sensing in environmental water and fish samples [J]. Microchem Journal. 2019, 152: 104406-104413.
18.Magnesium and nitrogen co-doped carbon dots as fluorescent probes for quenchometric determination of paraoxon using pralidoxime as a linker[J]. Microchimica Acta, 2019, 186: 24.
19.Construction of an NAND logic gate based on molecularly imprinted dual-emission quantum dot composites for the detection of antibiotics[J]. Anal.Methods, 2019, 11, 2033.