1. 奖励荣誉
第五届北京高校教师教学创新大赛二等奖
第三届全国本科院校化工类专业教师教学能力大赛特等奖
全国煤炭行业教学成果特等奖(排名2)
校级青年教师教学优秀奖、优秀教学质量奖
作为主要指导教师指导学生获省级以上竞赛奖励40余项,获评全国大学生化工设计竞赛优秀指导教师、大学生创新训练优秀指导教师;指导研究生获北京市优秀毕业生、校级优秀毕业生、国家奖学金等多项成果,SCI论文人均2篇以上。
2. 代表性论文(以下列举部分第一和通讯作者论文)
[1] Ma Jingwen; Li Xiang; Lei Guangyu; Wang Jun; Wang Juan; Liu Jian; Ke Ming; Li Yang & Sun Chunwen. A general synthetic strategy for N, P co-doped graphene supported metal-rich noble metal phosphides for hydrogen generation. Green Energy Environ. 9, 152-162, (2024).
[2] Ma Jingwen; Li Junbin; Tian Ying; Liu Jinhao & Wang Ruiting. Fully exposed Fe single-atom sites on hierarchical porous hollow carbon fiber for high-performance flexible/wearable Zn–air batteries. Rare Met., (2025).
[3] Ma J.; Zhang T.; Li J.; Tian Y. & Sun C. Superhydrophilic/superaerophobic CoP/CoMoO(4) multi-level hierarchitecture electrocatalyst for urea-assisted hydrogen evolution reaction in alkaline media. J Colloid Interface Sci 669, 43-52, (2024).
[4] Ma Jingwen; Zhang Tianai; Tian Ying; Li Junbin; Sun Xueli; Sun Yun & Sun Chunwen. Nitrogen-doped carbon-coated NiMoOx rods as bifunctional catalysts for urea-assisted hydrogen production. Int. J. Hydrogen Energy 73, 174-182, (2024).
[5] Ma Jingwen; Tian Ying; Li Junbin; Zhang Tianai; Sun Xueli & Zhang Qian. Tuning electronic structure of NiFe layered double hydroxides with vanadium doping toward formate production from glycerol oxidation. Int. J. Hydrogen Energy 82, 810-816, (2024).
[6] Ma J.; Wang M.; Lei G.; Zhang G.; Zhang F.; Peng W.; Fan X. & Li Y. Polyaniline Derived N-Doped Carbon-Coated Cobalt Phosphide Nanoparticles Deposited on N-Doped Graphene as an Efficient Electrocatalyst for Hydrogen Evolution Reaction. Small 14, (2018).
[7] Ma Jingwen; Tian Ying; Li Junbin; Wang Ruiting & Liu Jinhao. Construction of Ni3S2/NiFe LDH heterostructure as bifunctional catalyst for energy-saving hydrogen evolution and co-production of value-added formate from glycerol electrolysis. Int. J. Hydrogen Energy 88, 190-198, (2024).
[8] Ma J.; Zhang T.; Yin F.; Wang J.; Zhang Z. & Sun C. Modulating the electronic structure of Mo(2)C/MoP heterostructure to boost hydrogen evolution reaction in a wide pH range. J Colloid Interface Sci 650, 506-514, (2023).
[9] Tian Ying; Li Junbin; Li Fangxiao; Wang Ruiting; Liu Jinhao & Ma Jingwen. Ru/Ni3S2/NiFe LDH with Multiple Heterogeneous Interfaces as Active Electrocatalyst for Boosted Hydrogen Evolution Reaction. Industrial & Engineering Chemistry Research 64, 15165-15170, (2025).
[10] Ma J.; Wang J.; Liu J.; Li X.; Sun Y. & Li R. Electron-rich ruthenium encapsulated in nitrogen-doped carbon for efficient hydrogen evolution reaction over the whole pH. J Colloid Interface Sci 620, 242-252, (2022).
[11] Ma Jingwen; Wang Jun; Zhang Guanghui; Fan Xiaobin; Zhang Guoliang; Zhang Fengbao & Li Yang. Deoxyribonucleic acid-directed growth of well dispersed nickel–palladium–platinum nanoclusters on graphene as an efficient catalyst for ethanol electrooxidation. J. Power Sources 278, 43-49, (2015).
[12] Li Xiang; Ma Jingwen; Luo Jiaqing; Cheng Shuting; Gong Hanzhang; Liu Jian; Xu Chunming; Zhao Zhen; Sun Yuanqing; Song Weiyu; Li Kaixiang & Li Zhenguo. Porous N, P co-doped carbon-coated ultrafine Co2P nanoparticles derived from DNA: An electrocatalyst for highly efficient hydrogen evolution reaction. Electrochim. Acta 393, (2021).
[13] Lei G.; Ma J.; Zhao M.; Wu S.; He H.; Qi H.; Peng W.; Fan X.; Zhang G.; Zhang F. & Li Y. Nitrogen-carbon materials base on pyrolytic graphene hydrogel for oxygen reduction. J Colloid Interface Sci 602, 274-281, (2021).
[14] Ma Jingwen; Cai An; Guan Xinglong; Li Kai; Peng Wenchao; Fan Xiaobin; Zhang Guoliang; Zhang Fengbao & Li Yang. Preparation of ultrathin molybdenum disulfide dispersed on graphene via cobalt doping: A bifunctional catalyst for hydrogen and oxygen evolution reaction. Int. J. Hydrogen Energy 45, 9583-9591, (2020).
[15] Ma Jingwen; Li Yongheng; Liu Jian; Zhao Zhen; Xu Chunming; Wei Yuechang; Song Weiyu; Sun Yuanqing & Zhang Xiao. Cu-SAPO-18 for NH3-SCR Reaction: The Effect of Different Aging Temperatures on Cu2+ Active Sites and Catalytic Performances. Ind. Eng. Chem. Res.58, 2389-2395, (2019).
