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贵州大学化工学院化工系李自卫博士
/2021-10-24
化学工程与技术学科研究生导师简介
姓 名 李自卫 性 别 男
最高学位 博士 职 称 副教授
一级学科 化学工程与技术 导师类别 硕士研究生导师
招生专业
1. 应用化学
2. 化学工程
研究领域
1. 抗积碳催化剂的设计开发用于碳一催化转化
2. 电化学催化转化
教 育 及 学术 经 历
主 持
在 研 项 目
代 表 性 科研 成 果
2017. 08―2018. 09,新加坡国立大学,博士后研究
2016. 09―2017. 08,东国大学(韩国),博士后研究
2010. 01―2014. 12,新加坡国立大学,博士学位
2007.09―2009. 12,华南理工大学,硕士学习
2003. 09―2007.07,河南科技大学,工学学士学位
1. 贵州大学(一流学科特岗 A 类项目),高活性电催化剂的制备及构效关系研究,2019. 10-2022.10
2. 国家自然科学基金(青年项目),镍基核壳结构 NiM@Ni-Mg 硅酸盐@二氧化铈纳米催化剂的可控合成及生物沼气干重整反应的构效关系研究,2016.01-2019.12
1) Z. Li, L. Mo, Y. Kathiraser and S. Kawi, "Yolk?satellite?shell structured
Ni?yolk@Ni@SiO2 nanocomposite superb catalyst toward methane CO2 reforming reaction," ACS
Catal., 4, 1526-1536, 2014.(引用211,IF: 12.221, SCI一区)
2) Z. Li, M. Li, Z. Bian, Y. Kathiraser, and S. Kawi, "Design of highly stable
and selective core/yolk–shell nanocatalysts—A review," Appl. Catal. B, 188, 324-341,
2016.(引用97,IF: 14.229, SCI一区)
3) Z. Li, J. Yang, D. A. Agyeman, M. Park, W. Tamakloe, Y. Yamauchi, and Y.-M.
Kang, "CNT@Ni@Ni-Co silicate core-shell nanocomposite: a synergistic triple-coaxial catalyst for
enhancing catalytic activity and controlling side products for Li-O2 batteries", J.
Mater. Chem. A, 6, 10447-10455, 2018. (引用9,IF: 10.733, SCI一区)
4) Z. Li, M. Li, J. Ashok, S. Kawi. NiCo@NiCo phyllosilicate@CeO2 hollow core shell
catalysts for steam reforming of toluene as biomass tar model compound. Energ. Conver. Manage. 180,
822-30, 2019. (引用9, IF: 7.181, SCI一区)
5) Z. Li, B. Jiang, Z. Wang and S. Kawi, “High carbon resistant Ni@Ni
phyllosilicate@SiO2 core shell hollow sphere catalysts for low temperature CH4
dry reforming ”, J CO2 Util., 27, 238-246, 2018. (引用 18,IF: 5.189, SCI一区)
承担课程教学及教改情况
联系方式
6) Z. Li, and S. Kawi, "Multi-Ni@Ni phyllosilicate hollow sphere for CO2 reforming of CH4:
influence of Ni precursors on structure, sintering and carbon resistance," Catal. Sci. Technol., 8,
1915-1922, 2018. (引用25, IF: 5.726, SCI二区)
7) Z. Li, Z. Wang, B. Jiang and S. Kawi, "Sintering resistant Ni
nanoparticles exclusively confined within SiO2 nanotubes for CH4 dry reforming", Catal.
Sci. Technol., 8, 3363-3371, 2018. (引用20,IF: 5.726, SCI二区)
8) Z. Li and S. Kawi, "Facile Synthesis of Multi-Ni-core@Ni
Phyllosilicate@CeO2 shell hollow spheres with high oxygen vacancy concentration for dry
reforming of CH4", Chemcatchem, 10, 2994-3001, 2018. (引用16,IF: 4.495, SCI二区)
9) Z. Li, Y. Kathiraser and S. Kawi, "Facile synthesis of high surface area yolk–shell Ni@Ni
embedded SiO2 via Ni phyllosilicate with enhanced performance for CO2 reforming of
CH4," ChemCatChem, 7, 160-168, 2015. (引用59次,IF: 4.495, SCI二区)
10) Z. Li, Y. Kathiraser, J. Ashok, U. Oemar and S. Kawi, "Simultaneous tuning
porosity and basicity of Nickel@Nickel?Magnesium phyllosilicate core?shell
catalysts for CO2 reforming of CH4," Langmuir, 30, 14694-14705, 2014. (引用84,IF: 3.683, SCI二区)
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