报告题目: Controllable Preparation of ZnO-based Nanomaterials and their Applications in Energy Storage
报 告 人: 李建定 博士 （澳门大学）
In recent years, transition metal oxides have been extensively investigated as negative materials in lithium ion batteries due to their high specific capacity. Among them, ZnO is thought to be a promising anode material for lithium ion batteries due to its outstanding merits including high theoretical capacity of 987 mAh g-1, low cost, abundant resources, environmentally friendly, as well as excellent lithium ion diffusion coefficients in comparison with other transition metal oxides. However, they are faced with the problems to realize their commercial applications due to the inherent drawbacks of low electronic conductivity and huge volume change during charge/discharge. In this talk, I will discuss our progress in the development of ZnO-based materials to tackle the above-mentioned challenges during the last 3 years for energy storage.
李建定，2020年毕业于澳门大学应用物理与材料工程研究院，获哲学博士学位，研究兴趣主要为电池电极材料 (Li+/Na+/K+, 全固态电池电解质)，固态储氢材料，燃料电池阳极催化等；作为主要成员撰写并参与了Macao Science and Technology Development Fund 2，Multi-Year Research Grant 1项，Start-up Research Fund from University of Macau 1项；迄今为止在Journal of Materials Chemistry A, Electrochimica Acta, Journal of The Electrochemical Society, Journal of magnesium and alloys, International Journal of Hydrogen Energy等期刊上发表文章14篇，书章节3篇，专利1篇。