导师姓名:赖建平
出生年月:1989.10
职 称:教授
学历学位:博士学位
所属院系:太阳成集团tyc151cc
招生专业:化学各相关专业(学硕)、应用化学、材料与化工(专业学位)
研究方向:清洁能源电催化
联系方式:jplai@qust.edu.cn CCE大楼606
联系学业导师\研究生\博士后请加微信并注明ID: Nanoelectrocatalysis
工作和教育经历:
2019/03 - 至今,太阳成集团tyc151cc,太阳成集团tyc151cc,教授,泰山学者青年专家,山东省优秀青年基金获得者
2017/03 - 2019/03,北京大学,工学院,博士后,合作导师:郭少军
2011/09 - 2017/01,中国科学院长春应用化学研究所,分析化学,博士,导师:徐国宝
2007/09 - 2011/07,福州大学,化学基地班,学士
近五年发表SCI论文60余篇,其中以通讯作者和第一作者身份在 Nat. Commun.、 Chem、 Joule、 ACS Cent. Sci.、 Energy Environ. Sci.(2)、 Adv. Mater.、 Adv. Energy Mater.(2)、 Adv. Funct. Mater.、 Nano Today、 Cell Reports Phys. Sci.、 Appl. Catal. B: Environ.(2)、 Small、 J. Mater. Chem. A(6)等国际著名期刊上发表SCI论文二十余篇。主持科研项目包括山东省泰山学者人才工程计划项目、山东省优秀青年基金、国家青年基金等项目。网址https://www.x-mol.com/groups/lai_jianping
近期代表性论文:
[22] Wang, Z., Wu, X., Qin, Y., Han, Y., Zhang, D., Zhao, H., Chi, J., Xu, G., Wang, M., Li, S., Wang, D., Lai, J.*, Wang, L.*, Efficient nitrogen reduction to ammonia by fluorine vacancies with multi-step promoting effect. J. Mater. Chem. A 9, DOI: 10.1039/D0TA11566E (2021). (IF: 11.301)
[21] Zhang, D., Shi, Y., Zhao, H., Qi, W., Chen, X., Zhan, T., Li, S., Yang, b., Sun, M., Lai, J.*, Huang, B.*, Wang, L.*, Facile oil phase synthesis of multi-site synergistic high-entropy alloy to promote alkaline hydrogen evolution reaction. J. Mater. Chem. A 9, DOI: 10.1039/D1030TA10574K (2021). (IF: 11.301)
[20] Zhang, D., Zhao, H., Wu, X., Deng, Y., Wang, Z., Han, Y., Li, H., Shi, Y., Chen, X., Li, S., Lai, J.*, Huang, B., Wang, L*. Multi-site electrocatalysts boost pH-universal nitrogen reduction by high-entropy alloys. Adv. Funct. Mater. 30, 2006939 (2020). (IF: 16.836)
[19] Li, H., Han, Y., Zhao, H., Qi, W., Zhang, D., Yu, Y., Cai, W., Lin, S., Li, S., Lai, J.*, Huang, B.*, Wang, L.* Fast site-to-site electron transfer of high-entropy alloy nanocatalyst driving redox electrocatalysis. Nat. Commun. 11, 5437 (2020). (IF: 12.121)
[18] Han, Y., Cai, W., Wu, X., Qi, W., Li, B., Li, H., Zhang, D., Pan, Y., Wang, Z., Lai, J.*, Wang, L*. Electrocatalytic nitrogen fixation on metal tellurides boosted by multiple promoted-synergetic effects of telluride. Cell Reports Phys. Sci. 1, 100232 (2020). (cell新子刊)
[17] Zhao, H., Zhang, D., Li, H., Qi, W., Wu, X., Han, Y., Cai, W., Wang, Z., Lai, J.*, Wang, L*. Exposure of definite palladium facets boosts electrocatalytic nitrogen fixation at low overpotential. Adv. Energy Mater. 10, 2002131 (2020). (IF: 25.245)
[16] Cai, W., Han, Y., Li, H., Qi, W., Xu, J., Wu, X., Zhao, H., Zhang, X., Lai, J.*, Wang, L*. Significantly enhanced electrocatalytic N2 reduction to NH3 by the surface selenization with multiple functions.J. Mater. Chem. A 8, 20331-20336 (2020). (IF: 11.301)
[15] Pan, Y., Li, H., Wang, Z., Han, Y., Wu, Z.-C., Zhang, X., Lai, J.*, Wang, L.*, Feng, S. High-efficiency methanol oxidation electrocatalyst realized by ultrathin PtRuM-O (M = Ni, Fe, Co) nanosheets. Chem. Commun. 56, 9028-9031 (2020). (IF: 5.996)
[14] Zhao, H., Zhang, D., Wang, Z., Han, Y., Sun, X., Li, H., Xueke, W., Pan, Y., Qin, Y., Lin, S., Xu, Z., Lai, J.*, Wang, L.* High-performance nitrogen electroreduction at low overpotential by introducing Pb to Pd nanosponges. Appl. Catal. B: Environ. 265, 118481 (2020). (IF: 16.683)
[13] Wu, X., Wang, Z., Han, Y., Zhang, D., Wang, M., Li, H., Zhao, H., Pan, Y., Lai, J.*, Wang, L.* Chemical coupled NiCoS/C nanocages as efficient electrocatalyst for nitrogen reduction reaction. J. Mater. Chem. A 8, 543-547 (2020). (IF: 11.301)
[12] Li, H., Pan, Y., Zhang, D., Han, Y., Wang, Z., Qin, Y., Lin, S., Wu, X., Zhao, H., Lai, J.*, Huang, B.*, Wang, L.* Surface oxygen-mediated ultrathin PtRuM (Ni, Fe and Co) nanowires boosting methanol oxidation reaction. J. Mater. Chem. A 8, 2323-2330 (2020). (封面论文) (IF: 11.301)
[11] Zhang, D., Zhao, H., Huang, B., Li, B., Li, H., Han, Y., Wang, Z., Wu, X., Pan, Y., Sun, Y., Sun, X., Lai, J.*, Wang, L.* Advanced ultrathin RuPdM (M = Ni, Co, Fe) nanosheets electrocatalyst boosts hydrogen evolution. ACS Cent. Sci. 5, 1991-1997 (2019). (IF: 12.685)
[10] Lai, J., Huang, B., Chao, Y., Chen, X., Guo, S. Strongly coupled nickel–cobalt nitrides/carbon hybrid nanocages with Pt-Like activity for hydrogen evolution catalysis. Adv. Mater. 30, 1805541 (2019). (IF: 27.398)
[9] Lai, J., Lin, F., Tang, Y., Zhou, P., Chao, Y., Zhang, Y., Guo, S. Efficient bifunctional polyalcohol oxidation and oxygen reduction electrocatalysts enabled by ultrathin PtPdM (M = Ni, Fe, Co) nanosheets. Adv. Energy Mater. 9, 1800684 (2019). (IF: 25.245)
[8] Lai, J., Huang, B., Tang, Y., Lin, F., Zhou, P., Chen, X., Sun, Y., Lv, F., Guo, S. Barrier-free interface electron transfer on PtFe-Fe2C janus-like nanoparticles boosts oxygen catalysis. Chem 4, 1153-1166 (2018). (IF: 19.735)
[7] Lai, J., Nsabimana, A., Luque, R., Xu, G. 3D porous carbonaceous electrodes for electrocatalytic applications. Joule 2, 76-93 (2018). (IF: 27.054)
[6] Zhou, P.†, Lai, J.†, Tang, Y., Chao, Y., Lin, F., Guo, S. Amorphous FeCoPOx nanowires coupled to g-C3N4 nanosheets with enhanced interfacial electronic transfer for boosting photocatalytic hydrogen production. Appl. Catal. B: Environ. 238, 161-167 (2018). (IF: 16.683)
[5] Lai, J., Guo, S. Design of ultrathin Pt-based multimetallic nanostructures for efficient oxygen reduction electrocatalysis. Small 13, 1702156 (2017). (IF: 11.459)
[4] Lai, J., Li, S., Wu, F., Saqib, M., Luque, R., Xu, G. Unprecedented metal-Free 3D Porous Carbonaceous Electrodes for Full Water Splitting. Energy Environ. Sci. 9, 1210-1214 (2016). (封面论文) (IF: 30.289)
[3] Li, S.†, Lai, J.†, Luque, R., Xu, G. Designed multimetallic Pd nanosponges with enhanced electrocatalytic activity for ethylene glycol and glycerol oxidation. Energy Environ. Sci. 9, 3097-3102 (2016). (IF: 30.289)
[2] Lai, J., Niu, W., Li, S., Wu, F., Luque, R., Xu, G. Concave and duck web-like platinum nanopentagon with enhanced electrocatalytic properties for formic acid oxidation. J. Mater. Chem. A 4, 807-812 (2016). (IF: 11.301)
[1] Lai, J., Niu, W., Luque, R., Xu, G. Solvothermal synthesis of metal nanocrystals and their applications. Nano Today 10, 240-267 (2015). (IF: 16.907)