沈凤翠
发布时间:2020-09-17   浏览次数:3262

 

 

姓名:沈凤翠

职称:副教授

部门:化学与环境工程学院

地址:芜湖市北京中路2号楼2009

邮编:241000

Email: fcshen@ahpu.edu.cn

学术经历:

2020.10至今,安徽工程大学,化学与环境工程学院副教授

2018.102020.9 安徽工程大学,生物与化学工程学院,高级实验师

2012.102018.9 安徽工程大学,生物与化学工程学院,实验师

2009.72012.9 安徽工程大学,生物与化学工程学院,助理实验师

开设课程:

开设《无机化学》能源材料化学》以及《化工工艺流程设计》等课程

研究方向:

二氧化碳电还原、电解水、锂电钠电等电极材料性能研究

获奖情况:

安徽工程大学教学优秀奖校三等奖2014年)

安徽工程大学校青年教师基本竞赛二等奖2015年)

安徽工程大学生化学院青年教师基本竞赛一等奖2015年)

安徽工程大学化环学院青年教师基本功竞赛二等奖(2020年)

安徽工程大学化环学院青年教师基本功竞赛三等奖(2021年)

安徽工程大学化学与环境工程学院教学骨干(2022年)

主持项目:

1国家自然科学青年基金项目:多酸原位调控纳米阵列材料的制备及其二氧化碳电还原性能研究21901003),26.5万元,2020.12022.12,主持;

2)安徽省教育厅重点项目多酸前驱体调控金属有机框架阵列材料的制备及其衍生物的电解水性能研究KJ2019A0139),6万元,2019.12021.6,主持;

3安徽省高校重点实验室开放基金项目多界面纳米阵列的电解水催化剂的制备及其性能研究(LCECSC-092万元,2020.112022.3,主持;

4安徽工程大学人才培育科研启动基金基于多酸复合物的电极材料性能研究3万元,2022.32025.3,主持;

代表性论文:

1. Feng-Cui Shen,* Can Guo, Sheng-Nan Sun, Zhen Lei, and Ya-Qian Lan*. Self-Sacrificing Template of the POMs-Based Composite for the High-Performance Organic−Inorganic Hybrid Cathode of Lithium Ion Batteries. Inorg. Chem. 2022, 61, 11182-11188.

2. Yan Wen, Cun-xin Li, Jie Wang, Yin-yin Qian,* and Feng-cui Shen*. Hierarchically Self-Supporting Phosphorus-Doped CoMoO4 Nanoflowers Arrays toward Efficient Hydrogen Evolution Reaction. ACS Appl. Energy Mater. 2022,5, 6814-6822.

3. Feng-Cui Shen, Yu Wang, Yu-Jia Tang, Shun-Li Li, Yi-Rong Wang, Long-Zhang Dong, Ya-Fei Li,* Yan Xu, and Ya-Qian Lan*. CoV2O6-V2O5 Coupled with Porous N-doped RGO Composite as a Highly Efficient Electrocatalyst for Oxygen Evolution. ACS Energy Lett. 2017, 2:1327-1333.

4. Feng-Cui Shen, Yi-Rong Wang, Shun-Li Li, Jiang Liu, Long-Zhang Dong, Tao Wei, Yu-cheng Cui, Xing Long Wu, Yan Xu* and Ya-Qian Lan*. Self-assembly of Polyoxometalate / Reduced Graphene Oxide Composites Induced by Ionic Liquids as High Rate Cathode for Batteries: Killing Two Birds with One Stone. J. Mater. Chem. A. 2018, 6:1743–1750.

5. Feng-Cui Shen, Sheng-Nan Sun, Zhi-Feng Xin, Shun-Li Li, Long-Zhang Dong, Qing Huang, Yi-Rong Wang, Jiang Liu, *Ya-Qian Lan*. Hierarchically Phosphorus Doped Bimetallic Nitrides Arrays with Unique Interfaces for Efficient Water Splitting. Applied Catalysis B: Environmental. 2019,243, 470–480.

6. Xiao-Xin Li, # Feng-Cui Shen, # Jiang Liu, Shun-Li Li, Long-Zhang Dong, Qiang Fu, Zhong-Min Su *and Ya-Qian Lan*. A highly Stable Polyoxometalate-based Metal–organic Framework with an ABW Zeolite-like Structure. Chem. Commun., 2017, 53:10054-10057. (共同一作)

7. Jiapeng Cao, # Feng-cui Shen, # Ximing Luo, Chenhui Cui, Yaqian Lan* and Yan Xu*. Proton-conductivity Resulted by Different Triazole-based Ligands in Two New 0D Bifunctional Decavanadate. RSC Adv., 2018, 8, 18560–18566. (共同一作)

8. Weiwei Cheng, # Feng-Cui Shen, # Yun-shan Xue, Ximing Luo, Min Fang, Yaqian Lan* and Yan Xu*. A Pair of Rare Three-dimensional Chiral Polyoxometalate-based Metal Organic Framework Enantiomers Featuring Superior Performance as the Anode of Lithium Ion Battery. ACS Applied Energy Materials, ACS Appl. Energy Mater., 2018,1, 4931-4938. (共同一作)  

9. Qing Bai, Feng-cui Shen, Shun-Li Li, Jiang Liu, Long-Zhang Dong, Zeng-Mei Wang* and Ya-Qian Lan*Cobalt@nitrogen-doped Porous Carbon Fiber Derived from the Electrospun Fiber of Bimetal-Organic Framework for Highly Active Oxygen Reduction. Small method, 2018, 1800049.

10. Tao Wei, Mi Zhang, Ping Wu, Yu-Jia Tang, Shun-Li Li, Feng-Cui Shen, Xiao-Li Wang, Xin-Ping Zhou, and Ya-Qian Lan*. POM-based Metal-organic Framework/Reduced Graphene Oxide Nanocomposites with Hybrid Behavior of Battery-Supercapacitor for Superior Lithium Storage. Nano Energy, 2017, 34: 205-214.

11. Mi Zhang, Tao Wei, A-Man Zhang, Shun-Li Li, Feng-Cui Shen, Long-Zhang Dong, Dong-Sheng Li and Ya-Qian Lan*. Polyoxomolybdate−Polypyrrole/Reduced Graphene Oxide Nanocomposite as High-Capacity Electrodes for Lithium Storage. ACS Omega, 2017, 2, 5684−5690.

12. Feng-Ming Zhang, Jing-Li Sheng, Zhao-Di Yang, Xiao-Jun Sun, Hong-Liang Tang, Meng Lu, Hong Dong, Feng-Cui Shen, Jiang Liu and Ya-Qian Lan*. Rational Design MOF/COF Hybrid Materials for Photocatalytic H2 Evolution in the Presence of Sacrificial Electron Donors. Angew Chem. Int. Ed. Engl., 2018, 57, 12106-12110.