教育背景
- 2012-2017,华中科技大学,材料学,博士
- 2008-2012,华中科技大学,材料科学与工程,学士
工作经历
- 2021-至今,上海交通大学巴黎卓越工程师学院,长聘教轨副教授
- 2021-2021,日本早稻田大学,纳米与生命创新研究机构, 讲师
- 2017-2021,日本九州大学, 国际碳中和能源研究所(I2CNER),WPI研究员
研究方向
- 电解水制氢催化剂,解耦制氢系统,钙钛矿型氧化物,锂空气电池,燃料电池等
科研项目
- 基于电化学-化学循环的解耦水分解制氢系统研究,上海市自然科学基金面上项目,在研,主持
- 上海交通大学十四五规划科研启动项目,主持
- 上海市海外高层次人才,主持
- 可再生合成燃料基础理论与关键技术,上海市级重大专项,参与
论文信息
- [1] J. Cheng*, H. Chen, E. Wang, H. Wang, Z. Tan, C. Yan, Y. Su, X. Li, A. Wu, Y. Guo, G. Wei*, J. Zhang, Core@Shell Pt3Co@Pt/C Nanoparticles as Electrocatalyst for the Oxygen Reduction Reaction, ACS Appl. Nano Mater. https://doi.org/10.1021/acsanm.4c05129. (中科院2区,IF 5.26/Q1)
- [2] X. Li, G. Zhang, J. Nie, H. Chen, Z. Feng, F. Zheng, G. Wei, S. Shen, J. Cheng*, J. Zhang*, Phosphorus Doping Engineering Induces the Oxygen Defect-Rich Metallic IrOx Layer on the Cobalt Oxide Surface for Efficient and Stable OER, Mater. Today Energy, 2025, 48 101772. (中科院2区,IF 9.0/Q1)
- [3] H. Wang, X. Li, G. Zhang, Z. Gu, H. Chen, G. Wei, S. Shen, J. Cheng*, J. Zhang*, Recent Progress in Balancing the Activity, Durability and Low Ir Content for Ir-based OER Electrocatalysts in Acidic Media, Small, https://doi.org/10.1002/smll.202410407. (中科院1区,IF 12.96/Q1)
- [4] J. Huang, J. Nie, X. Li, L. Zou, Y. Wang, H. Chen, G. Wei, J. Cheng*, Boron-Intercalation Engineering towards Defected 1T Phase-Rich MoBxS2-x Supported IrOx Clusters for Acidic OER, Langmuir 2024, 40, 23951−23961. (中科院2区,IF 3.7/Q2)
- [5] X. Li, Z. Wang, Z. Peng, J. Cheng*, F. Zheng, Y. Wang, Y. Tian, B. Chi, G. Wei, J. Zhang*, Crystalline–Amorphous IrOx Supported on Perovskite Nanotubes for pH-Universal OER, ACS Appl. Mater. Interfaces, 2024, 16, 57099−57111. (中科院2区,IF 8.5/Q1)
- [6] X. Li, Z. Gu, J. Cheng*, G. Zhang, F. Zheng, J. Huang, J. Xu, G. Wei*, J. Zhang, Ir-RuOx Nanoparticles on WO3 Ultrafine Nanowires As Catalysts for the Oxygen Evolution Reaction in Acidic Media, ACS Appl. Nano Mater. 2024, 7, 12958−12969. (中科院2区,IF 5.26/Q1)
- [7] S. Hu, S. Gu, C. Yang, J. Cheng*, J. Xu*, J. Pu, B. Chi*, Application of lattice expansion effect in SrCoO3 based cathodes by Ba doping with elevated electrochemical performances for low-temperature solid oxide fuel cells, J. Power Sources, 2024, 602, 234389. (中科院2区,IF 8.1/Q1)
- [8] G. Qian, Y. Li, H. Chen, L. Xie, T. Liu, N. Yang, Y. Song, C. Lin, J. Cheng, N. Nakashima, M. Zhang, Z. Li, W. Zhao, X. Yang, H. Lin, X. Lu, L. Yang, H. Li, K. Amine, L. Chen, F. Pan, Revealing the aging process of solid electrolyte interphase on SiOx anode, Nat. Commun., 2023, 14, 6048.
- [9] J. Cheng, P. Ganesan, Z. Wang, M. Zhang, G. Zhang, N. Maeda, J. Matsuda, M. Yamauchi, B. Chi, N. Nakashima*, Bifunctional electrochemical properties of La0.8Sr0.2Co0.8M0.2O3−δ (M = Ni, Fe, Mn, and Cu): efficient elemental doping based on a structural and pH-dependent study, Mater. Adv., 2022, 3, 272-281.
- [10] Z. Wang, X. Peng, S. Guo, M. Sun, J. Cheng*, L. Zou*, B. Chi, J. Pu, Ultraviolet Light-Assisted Ag@La0.6Sr0.4Fe0.9Mn0.1O3 Nanohybrids: A Facile and Versatile Method for Preparation of Highly Stable Catalysts in Li-O2 Batteries, ACS Appl. Energy Mater. 2021, 4, 9, 9376.
- [11] J. Cheng, M. Higashi, N. Maeda, J. Matsuda, M. Yamauchi, N. Nakashima, CO2-free Energy System—Polymer Electrolyte Alcohol Electro-synthesis Cell with a Low Iridium Content Anode Based on in situ Growth Method, Electrochim. Acta, 2020, 361, 137078.
- [12] J. Cheng1, Z. Wang1, L. Zou, M. Zhang, G. Zhang, Y. Dong, Y. Jiang, Y. Huang, N. Nakashima, B. Chi, Doping optimization mechanism of a bi-functional perovskite catalyst La0.8Sr0.2Co0.8Ni0.2O3-δ for Li-O2 battery cathode, J. Alloys Compd., 2020, 831, 154728.
- [13] J. Cheng1, J. Yang1, S. Kitano, G. Juhasz, M. Higashi, M. Sadakiyo, K. Kato, S. Yoshioka, T. Sugiyama, M. Yamauchi, N. Nakashima, Impact of Ir-Valence Control and Surface Nanostructure on Oxygen Evolution Reaction over a Highly Efficient Ir-TiO2 Nano-rod Catalyst, ACS Catal. 2019, 9, 6974-6986.
- [14] J. Cheng, Y. Jiang, L. Zou, M. Zhang, G. Zhang, Z. Wang, Y. Huang, B. Chi, J. Pu, J. Li, The Efficiency of 3D-ordered Macroporous La0.6Sr0.4Co0.2Fe0.8O3 as an Electrocatalyst for Aprotic Li-O2 Batteries, ChemistryOpen, 2019, 8, 206-209.
- [15] J. Cheng, Y. Jiang, M. Zhang, Y. Sun, L. Zou, B. Chi., J. Pu, J. Li, Aprotic Lithium Air Batteries Tested in Ambient Air with High Performance and Low Cost Bi-functional Perovskite Catalyst, ChemCatChem, 2018, 10, 1635-1642.
- [16] J. Cheng, Y. Jiang, L. Zou, M. Zhang, Y. Huang, Z. Wang, B. Chi, J. Pu, J. Li, Perovskite-Type La0.8Sr0.2Co0.8Fe0.2O3 with Uniform Dispersion on N-doped Reduced Graphene Oxide as an Efficient Bi-functional Li-O2 Battery Cathode, Phys. Chem. Chem. Phys., 2017, 19, 10227-10230.
- [17] J. Cheng, M. Zhang, Y. Jiang, L. Zou, Y. Gong, B. Chi, J. Pu, J. Li, Perovskite La0.6Sr0.4Co0.2Fe0.8O3 as an effective electrocatalyst for non-aqueous lithium air batteries, Electrochim. Acta, 2016, 191, 106-115.
- [18] M. Zhang1, J. Cheng1, L. Zhang, Y. Li, M. Chen, Y. Chen, Z. Shen, Activated Carbon by One-Step Calcination of Deoxygenated Agar for High Voltage Lithium Ion Supercapacitor, ACS Sustainable Chem. Eng., 2020, 8, 3637-3643.
专利著作
- [1] 山内 美穗; 中岛 直敏; 北野 翔; 程俊芳; 福岛 贵; 东学 ; 催化剂及其使用方法, 2019-12-19, 中国, 201980038544.8 (专利)
- [2] YAMAUCHI Miho; NAKASHIMA Naotoshi; KITANO Sho; CHENG Junfang; FUKUSHIMA Takashi; HIGASHI Manabu ; EP 3 808 449 A1, 2021-04-21, 欧洲, 19820465.3 (专利)
- [3] 山内 美穗; 中嶋 直敏; 北野 翔; 程俊芳; 福嶋 贵; 東 学 ; 触媒及びその使用方法, 2019-12-19, WIPO, WO 2019/240200 A1 (专利)
- [4] Miho Yamauchi; Naotoshi Nakashima; Sho KITANO; Junfang Cheng; Takashi Fukushima; Manabu Higashi ; Catalyst and method of use thereof, 2020-12-10, 美国, US20210371993A1 (专利)
荣誉信息
- 上海市2022海外高层次人才
- 2023春季中法学院思政专项基金
- 2023年上海交通大学课程思政示范课程培育项目
- 2024国际大学生创新创业大赛国家级金奖第一指导教师
获奖信息
- 2022中法学院教学创新大赛一等奖
- 2023上海交通大学青年教师教学大赛三等奖
- 2024国际大学生创新创业大赛高教主赛道国际组金奖