职称: 特别副研究员、博士生导师
联系电话:
学系: 光学物理系
E-mail: zhonglx@bit.edu.cn
通讯地址: 北京市房山区北京理工大学良乡校区理学楼A307
理论结合实验,进行反应机理、含能材料、新能源等领域的研究,具体包含以下方面:
1. 含能材料性质与反应机理研究;
2. 催化反应机理研究;
3. 材料表面/界面性质研究;
4. 能源转化与存储研究。
2016-07至2020-06, 新加坡南洋理工大学,博士
2013-09至2016-06, 清华大学,硕士
2008-09至2012-07, 中国科学技术大学,本科
2022-01至今, 北京理工大学,特别副研究员,博士生导师
2020-08至2021-12, 新加坡南洋理工大学,博士后
获批国家级高层次青年人才计划,主持国家自然科学基金青年项目、北京理工大学青年教师学术启动项目。已发表论文40余篇,H指数(h-index)25,近年来以通讯作者或第一作者(含共同)在Nature Sustainability, JACS, Advanced Materials, Advanced Energy Materials, ACS Nano, Nano Energy, ACS Catalysis, ACS Materials Letters, Green Chemistry, Nanoscale等期刊发表论文17篇。代表性论文如下(通讯作者标注*,共同一作标注#):
[1] Wu W, Feng C, Chen M, Tan Q, Deng Y, Zeng C, Zhong L*, Dai C*. Novel benzimidazole-linked microporous conjugated polymers for highly selective adsorption and photocatalytic reduction of diluted CO2. Green Chemistry (2023).
[2] Yin Y, Zhang X, Li A, Lyu J, Zhong L*, Liu R*. High-Precision and Rapid In Situ Ore Element Detection Based on Laser-Induced Breakdown Spectroscopy. Journal of Physical Chemistry C (2023).
[3] Li A, Zhang X, Yin Y, Wang X, He Y, Shan Y, Ying Z, Liu X, Zhong L*, Liu R*. High-accuracy measurement on heat of detonation with good robustness by laser induced breakdown spectroscopy of Energetic Materials. Journal of Analytical Atomic Spectrometry (2023).
[4] Chai C, Shu Q, Su Q, Wang J, Lv X, Wang D*, Zhong L*. Theoretical investigation on intermolecular interactions, co-crystal structure, thermal decomposition mechanism, and shock properties of 3-nitro-1,2,4-triazol-5-one (NTO) and ammonium perchlorate. CrystEngComm (2023).
[5] Li Q, Zhang J*, Zhong L*, Geng F, Tao Y, Geng C, Li S, Hu B, Yang Q-H*. Unraveling the key atomic interactions in determining the varying Li/Na/K storage mechanism of hard carbon anodes. Advanced Energy Materials (2022).
[6] Lv C#, Zhong L#, Liu H#, Fang Z, Yan C, Chen M, Kong Y, Lee C, Liu D, Li S*, Liu J, Song L*, Chen G, Yan Q*, Yu G*. Selective electrocatalytic synthesis of urea with nitrate and carbon dioxide. Nature Sustainability (2021).
[7] Zhong L, Zhang L*, Li S*. Understanding the activity of carbon-based single-atom electrocatalysts from ab initio simulations. ACS Materials Letters (2021).
[8] Gu H#, Zhong L#, Shi G, Li J, Yu K, Li J, Zhang S, Zhu C, Chen S, Yang C, Kong Y, Chen C, Li S*, Zhang J*, Zhang L*. Graphdiyne/graphene heterostructure: a universal 2D scaffold anchoring monodispersed transition-metal phthalocyanines for selective and durable CO2 electroreduction. Journal of the American Chemical Society (2021).
[9] Lv C#, Zhou X#, Zhong L#, Yan C, Srinivasan M, Seh Z W, Liu C, Pan H, Li S*, Wen Y*, Yan Q*. Machine learning: an advanced platform for materials development and state prediction in lithium ion batteries. Advanced Materials (2021).
[10] Shang L#, Lv X#, Zhong L#, Li S*, Zheng G*. Efficient CO2 electroreduction to ethanol by Cu3Sn catalyst. Small Methods (2021).
[11] Zhong L, Li S*. Unconventional oxygen reduction reaction mechanism and scaling relation on single-atom catalysts. ACS Catalysis (2020).
[12] Zhu C#, Zhang Z#, Zhong L#, Hsu C-S#, Xu X, Li Y, Zhao S, Chen S, Yu J, Chen S, Wu M, Gao P, Li S*, Chen H M*, Liu K*, Zhang L*. Product-specific active site motifs of Cu for electrochemical CO2 reduction. Chem (2020).
[13] Zhong L, Li S*. Crystal phase effect upon O2 activation on gold surfaces through intrinsic strain. Nanoscale (2019).
[14] Liang Q#, Zhong L#, Du C, Luo Y, Zhao J, Zheng Y, Xu J, Ma J, Liu C, Li S*, Yan Q*. Interfacing epitaxial dinickel phosphide to 2D nickel thiophosphate nanosheets for boosting electrocatalytic water splitting. ACS Nano (2019).
[15] Dai C#, Zhong L#, Gong X, Zeng L, Xue C, Li S*, Liu B*. Triphenylamine based conjugated microporous polymers for selective photoreduction of CO2 to CO under visible light. Green Chemistry (2019).
[16] Liang Q#, Zhong L#, Du C, Luo Y, Zheng Y, Li S, Yan Q*. Achieving highly efficient electrocatalytic oxygen evolution with ultrathin 2D Fe-doped nickel thiophosphate nanosheets. Nano Energy (2018).
[17] Zhong L, Li J*, Li Y*, Lu H, Du H, Gan L, Xu C, Chiang S W, Kang F. Unraveling the influence of metal substrates on graphene nucleation from first-principles study. Journal of Physical Chemistry C (2016).
[18] Wei J, Zhong L, Xia H, Lv Z, Diao C, Zhang W, Li X, Du Y, Xi S, Salanne M, Chen X, Li S. Metal ion oligomerization inside electrified carbon micropores and its effect on capacitive charge storage. Advanced Materials (2021).
[19] Li J, Zhong L, Tong L, Yu Y, Liu Q, Zhang S, Yin C, Qiao L, Li S, Si R, Zhang J. Atomic Pd on graphdiyne/graphene heterostructure as efficient catalyst for aromatic nitroreduction. Advanced Functional Materials (2019).
[20] Niu B, Zhong L, Hao W, Yang Z, Duan X, Cai D, He P, Jia D, Li S, Zhou Y. First-principles study of the anisotropic thermal expansion and thermal transport properties in h-BN. SCIENCE CHINA Materials (2020).