姓名:赵苹苹
职称、职务:副研究员
联系电话:
E-mail:ppzhao @whu.edu.cn
学习经历
2006.09-2010.06 河南师范大学 本科/学士
2010.09-2016.06 best365体育最新版本 博士研究生/博士
工作经历
2016.11-2019.11 best365体育最新版本物理科学与技术学院 博士后
2019.11-2023.12 best365体育最新版本图像传播与印刷包装研究中心、best365官网app下载 讲师
2023.12-至今 best365官网app下载 副研究员
研究方向
护理工程
功能材料
生化传感
所获奖励
2023.12湖北省科学技术发明奖三等奖 排名第5
2020.12best365体育最新版本优秀教学论文三等奖(第一作者且通讯作者)
2020.5 best365体育最新版本印包系青年教师讲课大赛 二等奖
科研项目
1. ***粘结剂的设计与制备技术研究,快速支持项目,装备发展部,总经费50万元,个人经费50万元,2022-2023,主持,排序1;
2. 基于金属有机框架(MOF)的传感器构筑及其在高蛋白肉类新鲜度指示中的应用,湖北省自然科学基金青年基金项目,湖北省科技厅,总经费8万元,个人经费8万元,2021-2023,主持,排序1;
3. 基于MOF担载的复合型传感器的设计、制备及其应用,自主科研项目,中央高校基本科研业务费专项资金,总经费8万元,个人经费8万元,2020-2022,主持,排序1;
4. 人粪便除臭及生物炭制备技术,横向项目,企业合作,总经费5万元,个人经费5万元,2022-2023,主持,排序1;
5. 过渡金属阳极材料的设计与制备,横向项目,企业合作,总经费5万元,个人经费5万元,2022-2023,主持,排序1;
6. 水氧化材料纳米二氧化铱的设计与可控制备,横向项目,企业合作,总经费5万元,个人经费5万元,2022-2023,主持,排序1
7. 烟用包装膜功能性关键指标技术研究与应用,横向项目,企业合作,总经费85万元,个人经费8万元,2021-2023,参与,排序2
科研成果
近五年以(共同)第一和通讯作者在国际期刊发表SCI论文20篇,其中中国科学院一区期刊10 篇。
部分代表性成果
(1) Z. Xu, W. Zuo, Y. Yu, J. Liu, G. Cheng,* and P. Zhao* (2024). Surface Reconstruction Facilitated by Fluorine Migration and Bimetallic Center in NiCo Bimetallic Fluoride Toward Oxygen Evolution Reaction. Adv. Sci. 11, 2306758
(2) G. Helal; Z. Xu; W Zuo; Y. Yu; J. Liu; H. Su; J. Xu; H. Li; G. Cheng; * and P. Zhao*(2024). Boosting oxygen evolution reaction rates with mesoporous Fe-doped MoCo-phosphide nanosheets. RSC Adv. 14 (15) , 10182-10190
(3) G. Helal; Z. Xu; W Zuo; Y. Yu; J. Liu; H. Su; J. Xu; H. Li; G. Cheng; * and P. Zhao*(2024). Electrochemical water splitting enhancement by introducing mesoporous NiCoFe-trimetallic phosphide nanosheets as catalysts for the oxygen evolution reaction RSC Adv. doi: 10.1039/d4ra02344g
(4) Y. Men; S. Jia; P. Li; Y. Tan; J. Wang; P. Zhao*; G. Cheng; S. Chen; W. Luo*. (2022). Boosting alkaline hydrogen evolution electrocatalysis through electronic communicating vessels on Co2P/Co4N heterostructure catalyst. Chem. Eng. J. 433, 133831
(5) N. Yao; R. Meng; J. Su; Z. Fan; P. Zhao*; W. Luo*. (2021). Dual-phase engineering of MoN/Co4N with tailored electronic structure for enhanced hydrogen evolution. Chem. Eng. J. 421, 127757
(6) Q. Mou; X. Wang; Z. Xu; P. Zul; E. Li; P. Zhao*; X. Liu*; H. Li*; G. Cheng. (2022). A synergy establishment by metal-organic framework and carbon quantum dots to enhance electrochemical water oxidation. Chin. Chem. Lett. 33 (1), 562-566.
(7) G. Wang; H. He; J. Xu; X. Wang; T. Zhang; S. Huang; H. Li; P. Zhao*; X. Liu*. (2022). Preparation of fish freshness colorimetric indicator label based on the dye of BTB grafted on MOF carrier. Sensor Actuat. B-chem 354, 131230.
(8) Q. Mou; Z. Xu; G. Wang; E. Li; J. Liu; P. Zhao*; X. Liu*; H. Li*; G. Cheng. (2021). A bimetal hierarchical layer structure MOF grown on Ni foam as a bifunctional catalyst for the OER and HER. Inorg. Chem. Front. 8 (11), 2889-2899.
(9) P. Zhao; Q. Mou; X. Liu; H. Li; G. Cheng*. (2020). A facile synthesis of an Fe/N-doped ultrathin carbon sheet for highly efficient oxygen reduction reaction. Inorg. Chem. Front. 7 (23), 4652-4660.
(10) W. Zuo, Z. Xu, M. Hu, Y. Yu, J. Liu, G. Cheng*, P. Zhao*. (2023). Boosting electrocatalytic water oxidation by vanadium-iron-nickel trimetal hydroxide catalysts through interphase ionic migration method. Inorg. Chem. Front. 10, 2697-2707.
(11) Z. Chen; J. Wen; S. Huang; Y. Sun; X. Liu*; L. Chen; H. Li; P. Zhao*. (2023). Highly TVB-N sensitive film with CMS as the 'bridge' via electrostatic interaction and hydrogen bond self-assembly for monitoring food freshness in intelligent packaging. Talanta 252, 123881.
(12) Y. Zhao; X. Wang; Z. Li; P. Zhao*; C. Tao; G. Cheng; W. Luo*. (2022). Enhanced catalytic activity of Ru through N modification toward alkaline hydrogen electrocatalysis. Chin. Chem. Lett. 33 (2), 1065-1069.
(13) Z. Xu; W. Zuo; T. Shi; X. Liu; H. Li; P. Zhao*; G. Cheng*. (2022). An Fe-doped Co-oxide electrocatalyst synthesized through a post-modification method toward advanced water oxidation. Dalton. Trans. 51 (8), 3137-3145.
(14) Z. Xu; W. Zuo; Q. Mou; G. Cheng; H. Zheng*; P. Zhao*. (2022). A yolk-shell structure construction for metal-organic frameworks toward an enhanced electrochemical water splitting catalysis. Dalton. Trans. 51 (26), 10298-10306.
(15) Q. Mou; Z. Xu; W. Zuo; T. Shi; E. Li; G. Cheng; X. Liu; H. Zheng*; H. Li*; P. Zhao*. (2022). Metal-organic-framework embellished through ion etching method for highly enhanced electrochemical oxygen evolution reaction catalysis. Mater. Chem. Front. 6 (18), 2750-2759.
(16) N. Yao; Z. Fan; Z. Xia; F. Wu; P. Zhao*; G. Cheng; W. Luo*. (2021). Constructing the CoO/Co4N heterostructure with an optimized electronic structure to boost alkaline hydrogen evolution electrocatalysis. J. Mater. Chem. A 9 (34), 18208-18212.
(17) Y. Zheng; X. Wang; Z. Guan; J. Deng; X. Liu*; H. Li; P. Zhao*. (2022). Application of CD and Eu3+ Dual Emission MOF Colorimetric Fluorescent Probe Based on Neural Network in Fe3+ Detection. Part. Part. Syst. Char. 39, 2200124
(18) E. Li, Q. Mou, Z. Xu, J. Ma, X. Liu, G. Cheng, P. Zhao*, H. Li*.(2022) A Cu3P@NiFe-MOF Hybrid as an Efficient Electrocatalyst for Hydrogen and Oxygen Evolution Reactions, Catal. Lett., 152, 3825-3832.
(19) 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.
(20) X. Ma; S. Zhang; Y. Zhou; W. Lei; P. Zhao;* Y. Zhao;* and W. Luo; Recent Advances in Platinum Group Metal Based Alloys for Alkaline Hydrogen Oxidation Reaction. ChemNanoMat 2024, 10, e202300395
(21) 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.
(22) 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.
(23) 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.
(24) 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.
(25) 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.
(26) 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.
教学成果
部分成果如下:
(1) 赵苹苹*, 胡锴, 蔡苹, 程功臻 (2022). 软硬酸碱理论经验规则的原因探讨 大学化学 2022, 37 (11), 2208150
(2) 赵苹苹*, 蔡苹, 胡锴, 罗威, 程功臻 (2020). 图解中心原子轨道的杂化方式 大学化学 35(8): 93-97.
(3) 赵苹苹,蔡苹,胡锴,朱亚先,程鹏,程功臻*(2023). 中外无机化学教材的比较研究 大学化学 38 (6), 36–40