张媛媛,副教授,博士,硕士生导师。2016年毕业于华中科技大学,获博士学位。2016年10月起,于tyc1286太阳成集团任教。目前主要研究方向为电化学传感材料的形貌调控制备、电化学增敏机制及其在环境监测、食品安全分析及药物分析领域的电化学传感应用;电催化、能源存储(超级电容器)研究。相关研究工作发表在Small、Carbon、J.Hazard. Mater.、Nanoscale、Sensor. Actuat. B-Chem.、Electrochim. Acta等国际权威期刊上。目前,作为项目负责人,主持国家自然科学基金青年基金1项(No.61701352),太阳成集团的官方网站科学研究基金1项,重点实验室开放基金4项。指导硕士研究生5名,指导及协助指导研究生毕业6名:其中2名分别获得2020、2021年国家留学基金委公派出国留学项目资助(德国);3名获得2019、2020年度研究生国家奖学金。
联系方式:15071342616;E-mail:yyzhang@wit.edu.cn
地址:太阳成集团的官方网站流芳校区大化工楼1322
科研项目:
1.国家自然科学基金青年基金项目(61701352)
2.太阳成集团的官方网站科学研究基金
3.国家民委分析化学重点实验室(中南民族大学)开放基金
4.生物医学分析化学教育部重点实验室(武汉大学)开放基金
5.污染物分析与资源化技术湖北省重点实验室(湖北师范大学)开放基金
6.生物无机化学与药物湖北省重点实验室(华中科技大学)开放基金
代表性论文:
1.Yuanyuan Zhang⁎, QijinWan, Nianjun Yang⁎, Recent advances ofporous graphene: synthesis, functionalization and electrochemical applications,Small,2019, 15 (48) 1903780.(影响因子13.281)
2.Chang Guo,YuanyuanZhang*,Ting Zeng, Dongxue Huang, Qijin Wan*, Nianjun Yang*,High-performance asymmetric supercapacitors using holey graphene electrodes andredox electrolytes,Carbon, 2020, 157, 298-307.(影响因子9.594)
3.Yuanyuan Zhang,Peng Yan, Qijin Wan⁎,Nianjun Yang⁎, Integration of chromium terephthalate metal-organicframeworks with reduced graphene oxide for voltammetry of 4-nonylphenol,Carbon,2018, 134: 540-547.(影响因子9.594)
4.Hui Li#,YuanyuanZhang#, Qijin Wan*, Yawei Li*, Nianjun Yang*, Expanded graphiteand carbon nanotube supported palladium nanoparticles for electrocatalyticoxidation of liquid fuels,Carbon2018, 131, 111-119.(影响因子9.594)
5.Jun Yu#,YuanyuanZhang#, Hui Li, Qijin Wan*, Yawei Li*, Nianjun Yang*,Electrochemical properties and sensing applications of nanocarbons: Acomparative study,Carbon2018, 129: 301-309.(影响因子9.594)
6.Gehua Zheng,Yuanyuan Zhang⁎, Tianming Nie, XingmaoJiang, QijinWan⁎, Yawei Li, Nianjun Yang, Expanded graphitedecorated with PdO@C nanoparticles for individual and simultaneous sensing ofmultiple phenols,Sensors & Actuators: B. Chemical,2019, 291: 362-368.(影响因子7.460)
7.Xinyue Chen#,Hui Li#, Ting Zeng*,Yuanyuan Zhang, Qijin Wan*, Yawei Li,Nianjun Yang*, Three-dimensional catalyst systems from expanded graphite andmetal nanoparticles for electrocatalytic oxidation of liquid fuels,Nanoscale2019, 11: 7952-7958.(影响因子7.790)
8.Chi Li,Yuanyuan Zhang*,Chunya Li, Qijin Wan, Qiang Ke, Nianjun Yang, Tailoring the CeO2morphology and its electrochemical reactivity for highly sensitive andselective determination of dopamine and epinephrine,Microchimica Acta2020,187(2), 143.(影响因子5.833)
9.Xinyue Chen,Yuanyuan Zhang*,Chunya Li, Chi Li, Ting Zeng, Qijin Wan, Yawei Li, Qiang Ke, Nianjun Yang,Nanointerfaces of expanded graphite and Fe2O3nanomaterials for electrochemical monitoring of multiple organic pollutants,ElectrochimicaActa2020, 329, 135118.(影响因子6.901)
10.Chi Li,Yuanyuan Zhang*, TingZeng, Xinyue Chen, Wenqian Wang, Qijin Wan, Nianjun Yang, Graphene nanoplateletsupported CeO2nanocomposites towards electrocatalytic oxidation ofmultiple phenolic pollutants,Analytica Chimica Acta,2019, 1088, 45-53.(影响因子6.558)
11.Wenjie Huang,Yuanyuan Zhang*,Yao Li, Ting Zeng, Qijin Wan, Nianjun Yang, Morphology-controlledelectrochemical sensing of environmental Cd2+and Pb2+ions on expanded graphite supported CeO2nanomaterials,AnalyticaChimica Acta2020, 1126, 63-71.(影响因子6.558)
12.Yao Li, Yuli Shen,YuanyuanZhang*, Ting Zeng, Qijin Wan, Guosong Lai, Nianjun Yang, A UiO-66-NH2/carbonnanotube nanocomposite for simultaneous sensing of dopamine and acetaminophen,AnalyticaChimica Acta,2021, 1158, 338419.(影响因子6.558)
13.Yuanyuan Zhang,Qin Cheng, Meng Zheng,Xin Liu, Kangbing Wu⁎, Iron oxyhydroxide nanorods with highelectrochemical reactivity as a sensitive and rapid determination platform for4-chlorophenol,Journal of Hazardous Materials,2016, 307: 36-42.(影响因子10.588)