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赵苹苹时间:2017-09-23 11:53:58

姓名:赵苹苹

邮箱:ppzhao@whu.edu.cn

职称:讲师

教育经历

博士,武汉大学,化学与分子科学学院,2016

本科,河南师范大学,化学与环境科学学院,2010

学术经历

2016.11–2019.11,武汉大学物理科学与技术学院,博士后

2019.11–至今武汉大学印刷与包装系,教师

研究方向

纳米材料,智能包装

代表性论著

1.Zhao, P.; Nie, H.; Yu, J.; Wang, J.; Cheng, G., A Facile Synthesis of Porous N-Doped Carbon with Hybridization of Fe3C Nanoparticle-Encased CNT for an Advanced Oxygen Reduction Reaction Electrocatalyst. Inorg. Chem. Front. 2018, 5, 2546-2553.

2.Zhao, P.; Nie, H.; Zhou, Z.; Wang, J.; Cheng, G., NiFe-LDH Grown on Three-Dimensional Cu3P Nano-Array for Highly Efficient Water Oxidation. ChemistrySelect 2018, 3, 8064-8069.

3.Zhao, P.; Xu, W.; Hua, X.; Luo, W.; Chen, S.; Cheng, G., Facile Synthesis of a N-Doped Fe3C@CNT/Porous Carbon Hybrid for an Advanced Oxygen Reduction and Water Oxidation Electrocatalyst. J. Phys. Chem. C 2016, 120, 11006-11013.

4.Zhao, P.; Xu, W.; Yang, D.; Luo, W.; Cheng, G., Metal-Organic Framework Immobilized CoAuPd Nanoparticles with High Content of Non-Precious Metal for Highly Efficient Hydrogen Generation from Formic Acid. ChemistrySelect 2016, 7, 1400-1404.

5.Zhao, P.; Hua, X.; Xu, W.; Luo, W.; Chen, S.; Cheng, G., Metal-Organic Framework-Derived Hybrid of Fe3C Nanorod-Encapsulated, N-Doped CNTs on Porous Carbon Sheets for Highly Efficient Oxygen Reduction and Water Oxidation. Catal. Sci. Technol. 2016, 6, 6365-6371.

6.Zhao, P.; Cao, N.; Su, J.; Luo, W.; Cheng, G., NiIr Nanoparticles Immobilized on the Pores of MIL-101 as Highly Efficient Catalyst toward Hydrogen Generation from Hydrous Hydrazine. ACS Sustainable Chem. Eng. 2015, 3, 1086-1093.

7.Zhao, P.; Cao, N.; Luo, W.; Cheng, G., Nanoscale MIL-101 Supported RhNi Nanoparticles: An Efficient Catalyst for Hydrogen Generation from Hydrous Hydrazine. J. Mater. Chem. A 2015, 3, 12468-12475.

8.赵苹苹*,胡锴,蔡苹,程功臻,氧还原反应前沿与进展。大学化学2019, 34 (5), 33?41

9.赵苹苹*,蔡苹,胡锴,罗威,程功臻*,图解中心原子轨道的杂化方式。Univ. Chem. 2020, 35 (8), 93?97

10.Zuo, Q.; Zhao, P.; Luo, W.; Cheng, G., Hierarchically Porous Fe-N-C Derived from Covalent-Organic Materials as a Highly Efficient Electrocatalyst for Oxygen Reduction. Nanoscale 2016, 8, 14271-7.

11.Yang, F.; Zhao, P.; Hua, X.; Luo, W.; Cheng, G.; Xing, W.; Chen, S., A Cobalt-Based Hybrid Electrocatalyst Derived from a Carbon Nanotube Inserted Metal-Organic Framework for Efficient Water-Splitting. J. Mater. Chem. A 2016, 4, 16057-16063.

12.Liu, T.; Zhao, P.; Hua, X.; Luo, W.; Chen, S.; Cheng, G., An Fe–N–C Hybrid Electrocatalyst Derived from a Bimetal–Organic Framework for Efficient Oxygen Reduction. J. Mater. Chem. A 2016, 4, 11357-11364.

13.Xiong, B.; Zhao, P.; Hu, K.; Zhang, L.; Cheng, G., Dissolution of Cellulose in Aqueous NaOH/Urea Solution: Role of Urea. Cellulose 2014, 21, 1183-1192.

14.Xiong, B.; Zhao, P.; Cai, P.; Zhang, L.; Hu, K.; Cheng, G., NMR Spectroscopic Studies on the Mechanism of Cellulose Dissolution in Alkali Solutions. Cellulose 2013, 20, 613-621.

15.Zhang, L.; Chen, Y.; Zhao, P.; Luo, W.; Chen, S.; Shao, M., Fe3C Nanorods Encapsulated in N-Doped Carbon Nanotubes as Active Electrocatalysts for Hydrogen Evolution Reaction. Electrocatalysis 2017, 9, 264-270.

16.Uahengo, V.; Zhang, Y.; Xiong, B.; Zhao, P.; Cai, P.; Rhyman, L.; Ramasami, P.; Hu, K.; Cheng, G., A Fluoro-Chromogenic Sensor Based on Organic Molecular Framework for Cu2+ and F- in Aqueous Soluble Dmso. J. Fluoresc. 2017, 27, 191-197.

17.Uahengo, V.; Xiong, B.; Zhao, P.; Zhang, Y.; Cai, P.; Hu, K.; Cheng, G., Three-Channel Ferrocene-Based Chemosensors for Cu(II) and Hg(II) in Aqueous Environments. Sens. Actuators, B 2014, 190, 937-945.

科研项目

博士后基金,博士后基金委,职责:主持