王春霞
| 姓名 | 王春霞 |
| 性别 | 发明专利4999代写全部资料 |
| 学校 | 中国石油大学 |
| 部门 | 新能源与材料学院/储能科学与工程系 |
| 学位 | 博士 |
| 学历 | 专任教师 |
| 职称 | 副教授 |
| 联系方式 | 实用新型1875包写包过 |
| 邮箱 | 软件测试报告2199包写包过 |
| 集群智慧云企服 / 知识产权申请大平台 微信客服在线:543646 急速申请 包写包过 办事快、准、稳 软件产品登记测试 软件著作权666元代写全部资料 实用新型专利1875代写全部资料 |
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教育经历 2009-10至2012-09, 日本东北大学, 化学, 博士研究生 2005-09至2008-06, 大连理工大学, 应用化学, 硕士研究生 2001-09至2005-07, 信阳师范学院, 应用化学, 大学本科 个人概况 2.招生学科和研究方向 化学学科:纳米材料荧光传感研究 新能源科学与工程学科:纳米材料的电催化研究 代表性成果 【1】Preparation of an Efficient Fe/N/C Electrocatalyst and its Application for Oxygen Reduction Reaction in Alkaline Media”, J. Electroanal. Chem. , 2018, 810 , 62-68. [SCI] 【2】Sulfur-doped Porous Graphene Frameworks as An Efficient Metal-Free Electrocatalyst for Oxygen Reduction Reaction”, Mater. Lett. , 2018, 214 , 209-212. [SCI] 【3】Graphene Quantum Dots Nanosensor Derived from 3D Nanomesh Graphene Frameworks and Its Application for Fluorescent Sensing of Cu2+ in Rat Brain”, Sensor. Actuat. B-Chem. , 2018, 258 , 672-681. [SCI] 【4】Cupric Oxide Nanowires on Three-dimensional Copper Foam for Application in Click Reaction, RSC Adv. , 2017, 7 , 9567-9572. [SCI] 【5】Graphdiyne Oxide as a Platform for Fluorescent Biosensing. Chem. Commun. , 2016, 52 , 5629-5632. [SCI] 【6】Plasma Synthesis of Pd/PdO Supported on Porous Graphene as Electrocatalyst for Methanol Oxidation, Mater. Lett. , 2016, 174 , 192-196. [SCI] 【7】Au/Graphene Oxide/Carbon Nanotube Flexible Catalyst Film: Synthesis, Characterization and Its Application for Catalytic Reduction of 4-Nitrophenol, RSC Adv ., 2015, 5 , 37710-37715. [SCI] 【8】MnO2 Nanosheets Based Fluorescent Sensing Platform with Organic Dyes as Probe with Excellent Analytical Properties, Analyst , 2015, 140 , 4021-4029. [SCI] 【9】PdO Nanoparticles Enhancing the Catalytic Activity of Pd/Carbon Nanotubes for 4-Nitrophenol, RSC Ad v ., 2015, 5 , 27526-27532. [SCI] 【10】Ratiometric Fluorescent Signaling of Small Molecule-environmentally Sensitive Dye Conjugate for Detecting Single-base Mutations in DNA, Chem. Eur. J. , 2012, 18 , 9481-9484. [SCI] 【11】钟黄亮,王春霞*,周广林*,周红军,基于纳米材料的静态吸附脱硫进展,化工进展,2018, 37 , 2655-2663. [EI] |
