n 基本信息
职称:讲师 |
学历:博士研究生 |
职务:无 |
籍贯:陕西榆林 |
出生日期:1990.06 |
进校时间:2017.07 |
毕业院校:西北工业大学 |
邮箱:pipi1668@163.com |
讲授课程:材料成型基础 |
n 学习及工作简历
2017-至今 |
betway必威西汉姆联官网,讲师 |
2019-至今 |
西安理工大学,材料加工工程,博士研究生 |
2016-2017 |
榆林市科技局 |
2013-2016 |
西北工业大学,材料工程,硕士研究生 |
2009-2013 |
西北工业大学,材料科学与工程,本科 |
n 主要研究方向
镁合金固态储氢材料
有机液态储氢材料及催化剂
n 代表性学术论文
[1] J. Bai, J. Liu, H. Yun, et al. Hydrolysis hydrogen generation behavior of mechanico-chemical reaction Mg-M (M = Ni, Ce, and La) binary alloys-A feasible strategy for activating and improving environmental stability. Journal of Materials Research and Technology, 2022,. (一作SCI 1 区, IF = 6.267)
[2] J. Bai, D. Li, Q. Cao, et al. Hydrolysis H2 generation behavior of AM50 alloy waste coactivated by Mg-based master alloys. International Journal of Hydrogen Energy, 2022.. (一作SCI 2 区, IF = 7.139)
[3] J. Bai, D. Li, Q. Cao, et al. H2 production of as-cast multialloying Mg-rich alloys by electrochemical hydrolysis in NaCl solution. Energy Technology, 2022. (一作SCI 4 区, IF = 4.149)
[4] Hou K, Hou X*, Ye X, Li D, Suo G, Xie L, Shu Q, Cao Q, Bai J*. Carbon nanotubes and (Mg10Ni)85Ce15 synergistically activate Mg-Al alloy waste for efficiently hydrolysis hydrogen generation. Fuel. 2022. (通讯SCI 1 区)
[5] Hou X*, Danting L, Bai J*, et al. Investigation on environmental stability and hydrolytic hydrogen production behavior of Mg30La alloy modified by activated carbon/expandable graphite. International Journal of Hydrogen Energy. 2023. (通讯SCI 2 区)
[6] Hui Yun,, Bai J*, et al. Activation and hydrogen storage properties of Mg-based composites synthesized by catalytic mechanochemical hydrogenation strategy. International Journal of Hydrogen Energy. 2023. (通讯SCI 2 区)
