胡硕真
发布时间:2023-10-01   访问次数:5863   作者:


胡硕真               

副教授、硕士研究导师

电话:021-64250914           

电子邮件: shuozhen.hu@ecust.edu.cn

联系地址上海市徐汇区梅陇路130

华东理工大学徐汇校区实验161105


教育背景:

2006.9-2010.6 河北工业大学,36365路检测中心,学士学位

2009.8-2010.5美国WinonaStateUniversity,化学系,交换生

2010.8-2015.5美国WashingtonStateUniversity工学院,博士学位

工作经历:

2015.9-2016.9美国WashingtonStateUniversity36365路检测中心,博士后

2017.12-2022.1236365路检测中心,讲师

2023.01-至今    36365路检测中心,副教授

研究方向:

主要从事化学反应工程领域的应用基础研究,具体包括:

  1. 燃料电池关键材料的制备与应用:包括,高性催化剂的合成与催化机理研究气体扩散层老化机理研究

  2. 小分子重整制氢,开发高效的实时制氢技术

  3. 电化学工程技术应用:有机化学品电合成新工艺新技术,电解过程工艺优化、中试和工程放大研究,新型结构电解槽的研发及工业电解装置的开发

  4. 电化学法制备超净高纯电子化学品

代表性著作

  1. Jiangnan Guo, Junyu Wang, Guoming Luo, Xinsheng Zhang, Shuozhen Hu*, Shigang Sun*. Carbon layer thickness manipulated polarized electric field on palladium for formic acid electrooxidation, Chemical Engineering Journal, 2024, 479:147194

  2. Junyu Wang, Jiangnan Guo, Qinggang Zhou, Yuejin Zhu, Qizhi Liu, Shuozhen Hu*, Xinsheng Zhang*.Unveiling the formic acid dehydrogenation dynamics steered by Strength-Controllable internal electric field from barium titanate,Chemical Engineering Journal, 2024, 491: 151703

  3. Jiangnan Guo#, Shuozhen Hu#*, Zhaoqun Gao, Xinsheng Zhang, Shigang Sun*. Carbon-coated silica supported palladium for hydrogen production from formic acid – Exploring the influence of strong metal support interaction, Journal of Colloid and Interface Science, 2024, 658: 468-475

  4. Junyu Wang, Jiangnan Guo, Qinggang Zhou, Shuozhen Hu*, Xinsheng Zhang*. Improving the Performance of Pd for Formic Acid Dehydrogenation by Introducing Barium Titanate, ACS Applied Materials Interfaces, 2024, 16: 18713-18721

  5. Shuozhen Hu#*, Yunyun Cheng#, Guoming Luo, Kai Huang, Cheng Shi, Jie Xu, Cheng Lian, Shigang Sun, Xinsheng Zhang. Positive direction of polarization-induced electric field improves formic acid electrooxidation on Pd, Nano Research, 2023, 16: 10848-10856

  6. Junyu Wang, Mengjie Feng, Shuozhen Hu*, Xinsheng Zhang*. The effect of SnO2 on enhancing electrocatalytic property of palladium toward formic acid oxidation, International Journal of Hydrogen Energy, 2023, 48(41): 15492-15503

  7. Jiayu Jin, Shuozhen Hu*, Xinsheng Zhang, Shigang Sun*. Effect of MoO3 on Pd nanoparticles for efficient formic acid electrooxidation, International Journal of Hydrogen Energy, 2023, 48(41): 15483-15491

  8. Shuozhen Hu#*, Zhaoqun Gao#, Sijie Gao, Junyu Wang, Xinsheng Zhang*. Atomic Ordering Effect of Intermetallic PdCoNi/rGO Catalysts on Formic Acid Electro-oxidation, ACS Applied Energy Materials, 2023, 6, 11051-11060

  9. Guoming Luo, Shuozhen Hu*, Dongfang Niu, Shigang Sun, Xinsheng Zhang*. Well-designed internal electric field from nano-ferroelectrics promotes formic acid oxidation on Pd, Nanoscale, 2022, 14(16): 6007-6020

  10. Sijie Gao, Guoming Luo, Shigang Sun, Shuozhen Hu*, Xinsheng Shang*. 2,2′-bipyridine palladium (II) complexes derived N-doped carbon encapsulated palladium nanoparticles for formic acid oxidation, Electrochimica Acta, 2022, 413: 140179

  11. Shuozhen Hu, Fanglin Che, Bita Khorasani, Mina Jeon, Chang Won Yoon, Jean-Sabin McEwen, Louis Scudiero*, Su Ha*. Improving the electrochemical oxidation of formic acid by tuning the electronic properties of Pd-based bimetallic nanoparticles,Appl Catal B Environ,2019, 254: 685-692.


代表性项目

  1.  国家自然科学基金青年基金拥有自发极化电场的钯/电气石@碳核壳体系的构筑及其催化甲酸分解制氢机理研究,主持

  2.  上海市浦江人才计划高稳定性钯基催化剂制备及其甲酸电氧化催化性能研究主持

  3. 企业委托开发项目,电解法制备农药中间体有机物的小试工艺研究主持

  4. 企业委托开发项目,KLA-32-38项目主持

  5. 企业委托开发项目,电解草酸制备乙醛酸的应用技术开发,核心骨干

  6. 企业委托开发项目,丙烯腈电解制己二腈联产电解液添加剂工业技术开发核心骨干

  7. 企业委托开发项目,乙醇胺电解氧化制备甘氨酸的技术研发核心骨干