邢月明

发布者:xxgc发布时间:2024-04-15浏览次数:91


邢月明,博士,现任人工智能学院微电子专业专任教师岗位

研究方向:半导体离子氧化物材料离子传输特性、固体氧化物燃料电池、能源材料


主要担任课程:微电子科学与工业专业导论


主要发表论文:

  1. Yueming Xing, Bin Zhu,*et. Proton Shuttles in CeO2 /CeO2?δCore?Shell Structure. ACS Energy Letters. 2019, 4, 11, 2601–2607.T1

  2. Yueming Xing, Bin Zhu,*et. Designing p-n heterostructure of LSCF-CeO2 material for ionic transportation as an electrolyte for semiconductor ion membrane fuel cell. International Journal of Hydrogen Energy.2024,50:428-440.T2

  3. Yueming Xing, Bin Zhu*, et.Designing High Interfacial Conduction beyond Bulk via Engineering the Semiconductor–Ionic Heterostructure CeO2?δ/BaZr0.8Y0.2O3 for Superior Proton Conductive Fuel Cell and Water Electrolysis Applications. ACS Appl. Energy Mater.2022, 5, 12, 15373–15384.T2

  4. Yueming Xing,1 Bin Zhu,*et. Cubic Silicon Carbide/zinc Oxide Heterostructure Fuel Cells. Applied Physics Letters. 2020, 117, 162105.T2

  5. Yueming Xing,1Bin Zhu,*et. CeO2 Coated NaFeO2 Proton-conducting Electrolyte. International Journal of Hydrogen Energy 2021, 46, 98559860.T2

  6. Faze Wang,1Yueming Xing,1 Bin Zhu,*et. p-n Heterostructure Interface-Facilitated Proton Conduction in 3C-SiC/Na0.6CoO2 Electrolyte for Fuel Cell Application. ACS Applied Energy Materials. 2021, 4, 7519?7525.1T2.

7. Faze Wang,1Yueming Xing,1 Bin Zhu,*et. Li2TiO3-LaSrCoFeO3 semiconductor heterostructure for low temperature ceramic fuel cell electrolyte.International Journal of Hydrogen Energy2021, 46, 1326513272.1T2.