个人简介:李盼盼,四川大学双百人才(B类),特聘研究员,硕士生导师。本硕毕业于四川大学,获环境科学工学博士学位(2019年),美国UT-Austin博士后(2019-2021年)。主要从事电催化剂表界面设计、电化学原位表征及催化机制研究、能源与资源转化应用等。发表SCI 收录期刊论文共计40余篇,其中以第一或通讯作者(含共同)在 Nat. Catal.、PNAS、JACS、Angew、AM (2)、Chem. Rev.、EES、Mater. Today等国际知名期刊发表论文 20余篇,多篇入选ESI高被引论文和封面论文,相关工作受到了新浪、cnBeta、Science Daily、Chemistry Views、AIP Scilight等国内外知名媒体和微信公众号的专题报道和评述。目前担任ACS, RSC 等出版社期刊独立审稿人,Nano Research Energy(入选中国科技期刊卓越计划)、Frontiers in Catalysis、Frontiers in Materials、Eco-Environment & Health青年编委,Molecules客座编辑。多次受邀在国内外学术会议做专题报告,主持国家自然科学基金(1项)和四川省科技厅面上项目(1项)。
教育及工作经历:
2009.9-2013.6 四川大学化学学院,理学学士学位(化学类)
2013.7-2019.6 四川大学建筑与环境学院,工学硕/博士学位(环境)
2017.9-2021.7 UT-Austin,联合培养博士&博士后(合作导师:Prof. Guihua Yu)
2021.11-今 金沙集团3354CC,特聘研究员
研究方向:催化剂表界面设计、表界面催化行为研究、污染物资源化利用、柔性储能器件等。
科研项目:国家自然科学基金青年项目(2023-2025年)、四川省科技厅面上项目(2023-2024年)、中央高校基本科研专项资金(2022-2024年)。
招生方向:材料学、材料科学与化工。
本研究小组针对“双碳”目标、可持续发展、能源与环境问题等挑战,探索光、电催化资源与能源循环利用中的重要反应及机制,欢迎对该领域感兴趣的本科生、研究生加入。特别欢迎对科研具有浓厚兴趣的优秀本科生进组开展“互联网+”、“挑战杯”、“大创”等项目和本科毕业论文设计。
联系方式:
邮箱:panpanli@scu.edu.cn
地址:四川省成都市四川大学望江校区西区逸夫科技楼301。
代表性论文(*通讯作者,†共同第一作者):
1.Li, P.*; Liao, L.; Fang, Z.; Su, G; Jin, Z.*; Yu, G.*, A multifunctional copper single-atom electrocatalyst aerogel for smart sensing and producing ammonia from nitrate, PNAS, 2023, 120, e2305489120.
2.Qiu, W.; Xie, M.; Wang, P.; Gao, T.; Li, R.; Xiao, D.*; Jin, Z.; Li, P.*, Size-defined Ru nanoclusters supported by tio2 nanotubes enable low-concentration nitrate electroreduction to ammonia with suppressed hydrogen evolution. Small 2023, 2300437.
3.Li, R.; Gao, T.*; Wang, P.; Qiu, W.; Liu, K.; Liu, Y.; Jin, Z.; Li, P.*, The origin of selective nitrate-to-ammonia electroreduction on metal-free nitrogen-doped carbon aerogel catalysts. Appl. Catal. B: Environ. 2023, 331, 122677.
4.Li, P.*; Li, R.; Liu, Y.; Xie, M.; Jin, Z.*; Yu, G.*, Pulsed nitrate-to-ammonia electroreduction facilitated by tandem catalysis of nitrite intermediates. J. Am. Chem. Soc. 2023, 145, 6471.
5.Gao, T.; Tang, X.; Li, X.; Wu, S.; Yu, S.; Li, P.*; Xiao, D.*; Jin, Z., Understanding the atomic and defective interface effect on ruthenium clusters for the hydrogen evolution reaction. ACS Catal. 2023, 13, 49.
6.Wang, P.; Jin, Z.; Li, P.*; Yu, G.*, Design principles of hydrogen-evolution-suppressing single-atom catalysts for aqueous electrosynthesis. Chem Catal. 2022, 2, 1277. (Invited)
7.Qiu, W.; Chen, X.; Liu, Y.; Xiao, D.*; Wang, P.; Li, R.; Liu, K.; Jin, Z.*; Li, P.*, Confining intermediates within a catalytic nanoreactor facilitates nitrate-to-ammonia electrosynthesis. Appl. Catal. B: Environ. 2022, 315, 121548.
8.Luo, Y.; Li, P.*; Jin, Z.*, Lithiated interface of Pt/TiO2 enables an efficient wire-shaped Zn–air solar micro-battery. Chem. Commun. 2022, 58, 5988-5991.
9.Jin, Z.*; Li, P.; Fang, Z.; Yu, G.*, Emerging electrochemical techniques for probing site behavior in single-atom electrocatalysts. Acc. Chem. Res. 2022, 55, 759. (Invited; Featured Cover ESI highly cited paper)
10.Li, P.; Jin, Z.*; Fang, Z.; Yu, G.*, A single-site iron catalyst with preoccupied active centers that achieves selective ammonia electrosynthesis from nitrate. Energy Environ. Sci. 2021, 14, 3522. (ESI highly cited paper)
11.Jin, Z.†; Li, P.†; Meng, Y.; Fang, Z.; Xiao, D.*; Yu, G.*, Understanding the inter-site distance effect in single-atom catalysts for oxygen electroreduction. Nat. Catal. 2021, 4, 615. (ESI highly cited paper)
12.Li, P.; Fang, Z.; Jin, Z.*; Yu, G.*, Ammonia electrosynthesis on single-atom catalysts: Mechanistic understanding and recent progress. Chem. Phys. Rev. 2021, 2, 041305. (Invited; Featured Article; Featured Cover)
13.Li, X.; Guo, Y.; Gao, T.; Li, P.*; Jin, Z.*; Xiao, D.*, Interconnecting 3D Conductive Networks with Nanostructured Iron/Iron Oxide Enables a High-Performance Flexible Battery. ACS Appl. Mater. Interfaces 2021, 13, 57411.
14.Li, X.; Chen, X.; Jin, Z.; Li, P.*; Xiao, D.*, Recent progress in conductive polymers for advanced fiber-shaped electrochemical energy storage devices. Mater. Chem. Front. 2021, 5, 1140.
15.Li, P.; Jin, Z.*; Fang, Z.; Yu, G.*, A Surface-Strained and Geometry-Tailored Nanoreactor that Promotes Ammonia Electrosynthesis. Angew. Chem. Int. Ed. 2020, 59, 22610. (VIP paper; Featured Cover)
16.Li, P.†; Jin, Z.†; Qian, Y.; Fang, Z.; Xiao, D.*; Yu, G.*, Supramolecular confinement of single Cu atoms in hydrogel frameworks for oxygen reduction electrocatalysis with high atom utilization. Mater. Today 2020, 35, 78.
17.Guo, Y.†; Bae, J.†; Fang, Z.†; Li, P.†; Zhao, F.; Yu, G.*, Hydrogels and hydrogel-derived materials for energy and water sustainability. Chem. Rev. 2020, 120, 7642. (Featured Cover, ESI highly cited paper)
18.Fang, Z.†; Li, P.†; Yu, G.*, Gel Electrocatalysts: An emerging material platform for electrochemical energy conversion. Adv. Mater. 2020, 32, 2003191.
19.Li, P.†; Jin, Z.†; Qian, Y.; Fang, Z.; Xiao, D.*; Yu, G.*, Probing enhanced site activity of Co–Fe bimetallic subnanoclusters derived from dual cross-linked hydrogels for oxygen electrocatalysis. ACS Energy Lett. 2019, 4, 1793.
20.Li, P.; Jin, Z.; Peng, L.; Zhao, F.; Xiao, D.*; Jin, Y.; Yu, G.*, Stretchable all‐gel‐state fiber‐shaped supercapacitors enabled by macromolecularly interconnected 3D graphene/nanostructured conductive polymer hydrogels. Adv. Mater. 2018, 30, 1800124. (ESI highly cited paper)
21.Li, P.; Jin, Z.; Xiao, D.*, Three-dimensional nanotube-array anode enables a flexible Ni/Zn fibrous battery to ultrafast charge and discharge in seconds. Energy Storage Mater. 2018, 12, 232. (Featured Cover)
22.Li, P.; Jin, Z.; Xiao, D.*, A phytic acid etched Ni/Fe nanostructure based flexible network as a high-performance wearable hybrid energy storage device. J. Mater. Chem. A 2017, 5, 3274. (JMCA 2017 Hot paper)
23.Li, P.; Jin, Z.; Yang, J.; Jin, Y.*; Xiao, D.*, Highly active 3D-nanoarray-supported oxygen-evolving electrode generated from cobalt-phytate nanoplates. Chem. Mater. 2016, 28, 153.
24.Li, P.; Jin, Z.; Wang, R.; Jin, Y.*; Xiao, D.*, Three-dimensional flexible electrode derived from low-cost nickel–phytate with improved electrochemical performance. J. Mater. Chem. A 2016, 4, 9486.
25.Li, P.; Jin, Z.; Zhao, M.; Xu, Y.; Guo, Y.; Xiao, D.*, Self-enhanced electrogenerated chemiluminescence of ruthenium (II) complexes conjugated with Schiff bases. Dalton Trans. 2015, 44, 2208.
26.Li, P.; Jin, Z.; Xiao, D.*, A one-step synthesis of Co–P–B/rGO at room temperature with synergistically enhanced electrocatalytic activity in neutral solution. J. Mater. Chem. A 2014, 2, 18420.
详情请见:https://scholar.google.com/citations?user=Qhp5cwUAAAAJ&hl=zh-CN
https://www.x-mol.com/groups/li_panpan
