周其兴

发布者:赵强发布时间:2025-01-06浏览次数:53

姓名

周其兴

性别

籍贯

安徽合肥

职称

讲师

学历

研究生

学位

博士

邮箱

zqx1223@jssnu.edu.cn

研究方向

新型能源材料,用于锌-空气电池、氢氧燃料电池、锂离子电池、电解水制氢等领域。

个人履历

2013.09 2017.06  商丘师范学院   应用化学专业     理学学士

2017.09 2020.06  南京师范大学   物理化学专业     理学硕士

2020.09 2024.06  东南大学    化学工程与技术专业  工学博士

2024.07 ~ 至今     江苏第二师范学院 讲师

研究内容

  1. 通过构建异质结/单原子等手段来调控过渡金属基一维碳纳米复合材料的电子结构,并研究其氧催化(ORR/OER)性能。

  2. 负载型Ru基催化剂析氢(HER)及氢气氧化(HOR)性能研究。

主持项目

荣誉奖励

学术兼职

代表论文

[1] Qixing Zhou, Sike Zhang, Guangyao Zhou, Huan Pang, Mingyi Zhang, Lin Xu*,Kang Sun*, Yawen Tang*, and Kai Huang*,Interfacial Engineering of CoN/Co3O4 HeterostructuredHollow Nanoparticles Embedded in N-Doped CarbonNanowires as a Bifunctional Oxygen Electrocatalyst forRechargeable Liquid and Flexible all-Solid-State Zn-AirBatteriesSmall, 2023, 2301324. (一区TOPIF= 13.0)

[2] Qixing Zhou, Ruoxu Sun, Yiping Ren, Run Tian, Jun Yang, Huan Pang, Kai Huang*, Xinlong Tian*, Lin Xu*, Yawen Tang*, Reactive template‐derived interfacial engineering of CoP/CoO heterostructured porous nanotubes towardssuperior electrocatalytic hydrogen evolution,Carbon Energy, 2022, 5, 273. (一区TOPIF= 19.5)

[3] Qixing Zhou, Shaoyi Hou, Yuxuan Cheng, Ruoxu Sun, Wenyang Shen, Run Tian,Jun Yang, Huan Pang, Lin Xu*, Kai Huang*, Yawen Tang*, Interfacial engineering Co and MnO within N,S co-doped carbonhierarchical branched superstructures toward high-efficiencyelectrocatalytic oxygen reduction for robust Zn-air batteries, Appl. Catal. B: Environ., 2021, 120281. (一区TOPIF= 20.1)

[4] Qixing Zhou, Li Ai, Qixuan Li, Shaoyi Hou, Lin Xu*, Dongmei Sun, Huan Pang,Kai Huang*, Yawen Tang*,A “Ship-in-a-Bottle” strategy to anchor CoFe nanoparticles inside carbonnanowall-assembled frameworks for high-efficiency bifunctionaloxygen electrocatalysis, Chem. Eng. J.,2021, 417,127895. (一区TOPIF= 13.3)

[5] Qixing Zhou, Zhangbin Su, Yidan Tang, Li Ai, Gengtao Fu,* Zexing Wu,Dongmei Sun,* and Yawen Tang*, Pt-Like Oxygen Reduction Activity Induced by Cost-EffectiveMnFeO2/N-Carbon, Chem. Eur. J., 2019, 25, 1-8. (二区,IF= 3.9)

[6] Tingyu Lu#, Qixing Zhou#, Lin Xu*, Gan Luo*, Kang Sun*, Yawen Tang*, Self-adjustment of intrinsic reaction intermediate on atomically dispersed Co2-N6 binuclear sites achieving boosted electrocatalytic oxygen reduction performance,Adv. Funct. Mater. 2024, 2405564(一区TOPIF= 18.5)

[7] Sike Zhang#, Qixing Zhou#, Linya Fang, Rui Wang, Tingyu Lu, Qun Zhao,Xuefang Gu, Shu Tian, Lin Xu, Huan Pang, Jun Yang, Yawen Tang, Shuhui Sun*,Gram-scale synthesis and unraveling the activity origin of atomicallydispersed Co-N4O sites toward superior electrocatalytic oxygen reduction, Appl. Catal. B: Environ., 2023, 122489.(一区TOPIF= 20.1)

[8] Suwei Xia#, Qixing Zhou#, Ruoxu Sun, Lizhang Chen, Mingyi Zhang, Huan Pang, Lin Xu*, Jun Yang*, Yawen Tang*, In situ immobilization of CoNi nanoparticles into N-doped carbon nanotubes/nanowire-coupled superstructures as an efficient Mott-Schottky electrocatalyst toward electrocatalytic oxygen reduction, Chinese J. Catal., 2023.(一区TOPIF= 15.7)

[9] Jingfei Zhang#, Qixing Zhou#, Shaoyi Hou, Zhenbo Zhang,Dongmei Sun*, Lin Xu, Kai Huang*, Yawen Tang*, Reactive self-assembled hybrid SnO2-Co3O4 nanotubes with enhanced lithiumstorage capacity and stability for highly scalable Li-Ion batteries, Chem. Eng. J. Adv.,2021, 100121.(二区,IF= 5.5)

[10] 专利:徐林,周其兴,艾丽,李琦萱,唐亚文,孙冬梅,S掺杂表面褶皱碳纤维负载CoMnO纳米粒子及其制备方法和用途,授权号:CN 111575836 B,授权日:2022-05-31