李宏岩

发布时间:2023-05-08 来源:beat365网页版登录官网

个人简介


李宏岩,现为beat365网页版登录官网教授。主要研究方向为金属离子电池及混合电容器。近年来以实现高倍率、长循环、高稳定性的电极材料为目标,在多维度功能纳米材料的构筑与应用、微观孔洞与缺陷位点调控、表界面功能化新策略等多个层面开展了系统性研究工作。曾作为中国青年科学家代表参加诺贝尔化学奖获得者大会(全国20人);并获得过甘肃省三好学生、中国科学院院长优秀奖和中国科学院三好学生标兵等荣誉。

迄今已发表50余篇SCI论文,以第一/通讯作者在Adv. Mater., Adv. Energy Mater., ACS Energy Lett., Nano Lett., Nano Energy, Energy Storage Mater., Small, Appl. Catal. B: Environ, Nano-Micro Lett.,等知名学术期刊上发表30篇论文,其中IF>10的论文20篇,IF>20的论文8篇。受邀撰写综述2篇。3篇第一作者论文引用均超过260次,单篇引用最高540次,总引用达到2340次,H-index为22,ESI高被引论文6篇,1‰热点论文1篇,封面论文2篇,多篇论文被Wiley MaterialsView和锂电网等媒体重点高亮报道和配图评述。已授权中国发明专利7项。

作为负责人先后主持国家自然科学基金、广东省自然科学基金、广州市基础与应用基础研究项目、广东省配位超分子重点实验室开放基金、beat365网页版登录官网学科建设优秀青年骨干项目和教学教改项目等。受邀担任材料研究与应用、RareMetals(一区)和Chinese Chemical Letters(一区)期刊的青年编委。


学习经历


2012.08-2017.12:博士,中国科学院大学,中科院长春应用化学研究所(导师:牛利教授,俄罗斯工程院外籍院士)

2015.10-2016.10:联培博士,德国德累斯顿工业大学(导师:冯新亮教授,欧洲科学院院士)

2008.09-2012.06:学士,西北师范大学


工作经历


2019. 04-至今:教授,beat365网页版登录官网,beat365网页版登录官网

2018.01-2019.03:博士后,美国东北大学


研究方向


[1]. 电化学储能材料的结构调控、表界面与原位储能过程分析

[2]. 钾/钠/锌基离子电池及其混合电容器


承担课题


[1]. 国家自然科学基金-青年基金,2022,主持

[2]. 广东省自然科学基金面上项目,2021,主持

[3]. 广东省自然科学基金区域联合基金青年项目,2021,主持

[4]. 广东省功能配位超分子材料重点实验室开放基金,2022,主持

[5]. 广州市基础与应用基础研究青年项目,2021,主持

[6]. 广东省大学生创新创业项目,2020,主持(指导老师)

[7]. beat365网页版登录官网高层次人才引进启动基金,2019,主持

[8]. beat365网页版登录官网学科建设优秀青年骨干项目,2019,主持

[9]. beat365网页版登录官网中央高校基本科研业务项目,2019,主持

[10].beat365网页版登录官网教学质量与改革工程项目,2022,主持


主要论文


*为通讯作者

--2023

[30]. Z. Chen, Y. Wu, X. Liu, and Hongyan Li*, Bismuth Hollow Porous Anode: High Rate Capability Material for Potassium-ion Batteries, Journal of Energy Chemistry, 2023, Accepted.IF=13.599, 中科院一区TOP

[29] Y. Sun, J. Zheng, F. Li, Y. Long, Dong Xie*, Hongyan Li* and Mingxian Liu*, Halloysite Nanotube@N-doped Graphene Heterostructure Enabled Advanced Potassium Ion Hybrid Capacitor Anode, Applied Materials Today, 2023, 30, 101702.IF=8.663

--2022

[28]. Ziqi Wang,* H. Chen, H. Wang, W. Huang, Hongyan Li* and Feng Pan*, In Situ Growth of a MOF-Based SEI for Highly Reversible Zn Anodes, ACS Energy Letters, 2022, 7,4168-4176 .IF=23.991, 中科院一区TOP

[27]. X. Liu, Y. Sun, Z. Chen, Y. Tong and Hongyan Li*, Unique Spindle-Like Bismuth-Based Composite toward Ultrafast Potassium Storage, Small,2022, 2204045.IF=15.153, 中科院一区TOP, 封面论文

[26]. X. Liu, X. Yu, Y. Tong, Y. Sun, W. Mai, L. Niu and Hongyan Li*, Potassium Storage in Bismuth Nanoparticles Embedded in N-doped Porous Carbon Facilitated by Ether-based Electrolyte, Chemical Engineering Journal, 2022, 446, 137329.IF=16.744, 中科院一区TOP

[25]. Y. Wu, Y. Sun, Y. Tong, and Hongyan Li*, FeSb2 Nanoparticles Embedded in 3D Porous Carbon Framework: An Robust Anode Material for Potassium Storage with Long Activation Process, Small, 2022, 2201934.IF=15.153, 中科院一区TOP

[24]. J. Zheng#, Y. Wu#, Y. Tong, Y. Sun, and Hongyan Li*, Dual-Carbon Confinement Strategy of Antimony Anode Material Enabling Advanced Potassium Ion Storage, Journal of Colloid and Interface Science, 2022, 622, 738-747.IF=9.965, 中科院一区TOP

[23]. Y. Tong, Y. Wu, Z. Liu, Y. Yin, Y. Sun and Hongyan Li*, Fabricating Multi-porous Carbon Anode with Remarkable Initial Coulombic Efficiency and Enhanced Rate Capability for Sodium-ion Batteries, Chinese Chemical Letters,2023,34, 107443.IF=8.455, 中科院一区TOP

[22]. X. Liu, Y. Tong, Y. Wu, J. Zheng, Y. Sun, L. Niu and Hongyan Li*, Synergistically Enhanced Electrochemical Performance Using Nitrogen, Phosphorus and Sulfur tri-doped Hollow Carbon for Advanced Potassium Ion Storage Device, Chemical Engineering Journal, 2022, 431, 133986.IF=16.744, 中科院一区TOP, 高被引论文

--2021

[21]. J. Zheng, Y. Wu, Y. Tong, X. Liu, Yingjuan Sun*, Hongyan Li* and L. Niu, High Capacity and Fast Kinetics of PotassiumIon Batteries Boosted by NitrogenDoped Mesoporous Carbon Spheres, Nano-Micro Letters, 2021, 13, 174.IF=23.655, 中科院一区TOP

[20]. X. Liu, Y. Tong, Y. Wu, J. Zheng, Yingjuan Sun* and Hongyan Li*, In-Depth Mechanism Understanding for Potassium-Ion Batteries by Electroanalytical Methods and Advanced In Situ Characterization Techniques, Small Methods, 2021, 2101130.IF=15.367

[19]. Y. Wu, J. Zheng, Y.Tong, X. Liu, Yingjuan Sun*, L. Niu and Hongyan Li*, Carbon Hollow Tube-Confined Sb/Sb2S3 Nanorod Fragments as Highly Stable Anodes for Potassium-Ion Batteries, ACS Applied Materials & Interfaces, 2021, 13, 51066-51077.IF=10.383

[18]. Y. Sun#, J. Zheng#, Y. Tong, Y. Wu, X. Liu, L. Niu and Hongyan Li*, Construction of Three-dimensional Nitrogen doped Porous Carbon Flake Electrodes for Advanced Potassium-Ion Hybrid Capacitors, Journal of Colloid and Interface Science, 2022, 606, 1940-1949.IF=9.965, 中科院一区TOP

[17]. X. Cao#, Y. Sun#, Y. Sun, D. Xie, Hongyan Li*, Mingxian Liu*, Conductive Halloysite Clay Nanotubes for High Performance Sodium Ion Battery Cathode, Applied Clay Science, 2021, 213, 106265.IF=5.907

[16]. X. Liu, Y. Sun, Y. Tong, X. Wang, J. Zheng, Y. Wu, Hongyan Li*, L. Niu and Yang Hou,* Exploration in Materials, Electrolyte and Performance towards Metal ion (Li, Na, K, Zn and Mg)-based Hybrid Capacitors: A Review, Nano Energy, 2021, 86, 106070.IF=19.069, 中科院一区TOP, 高被引论文

[15]. Y. Wu, Y. Sun, Y. Tong, X. Liu, J. Zheng, D. Han, Hongyan Li* and Li Niu*, Recent Advances in Potassium-ion Hybrid Capacitors: Electrode materials, Storage mechanisms and Performance evaluation, Energy Storage Materials, 2021, 41, 108-132.IF=20.831, 中科院一区TOP

--2020

[14]. J. Zheng, Y. Wu, Y. Sun, J. Rong, Hongyan Li* and L. Niu, Advanced Anode Materials of Potassium Ion Batteries: from Zero Dimension to Three Dimensions, Nano-Micro Letters, 2021, 13, 1-37.IF=23.655, 中科院一区TOP,高被引论文

[13]. J. Zheng#, Y. Sun#, Y. Wu, J. Rong, Ziqi Wang*, Hongyan Li* and L. Niu, Ultralong cycle life and high rate potassium ion batteries enabled by multi-level porous carbon, Journal of Power Sources, 2021, 492, 229614.IF=9.794

[12]. Y. Wu, Y. Sun, J. Zheng, J. Rong, Hongyan Li* and Li Niu*, MXenes: Advanced Materials in Potassium Ion Batteries, Chemical Engineering Journal, 2021, 404, 126565.IF=16.744, 中科院一区TOP高被引论文

[11]. Y. Sun, J. Zheng, Y. Yang, J. Zhao, Jianhua Rong*, Hongyan Li* and L. Niu, Design Advanced Porous Polyaniline-PEDOT:PSS Composite as High Performance Cathode for Sodium Ion Batteries, Composites Communications, 2021, 24, 100674.IF=7.685

[10]. Y. Wu, Y. Sun, J. Zheng, J. Rong, Hongyan Li* and Li Niu*, Exploring MXene-based Materials for Next Generation Rechargeable Batteries, Journal of Physics: Energy, 2021, 3, 032009.IF=7.528

--2019

[9]. Y. Sun,L. Jiao, D. Han, F.Wang, P. Zhang, Hongyan Li* and Li Niu*, Hierarchical Architecture of Polyaniline Nanoneedle Arrays on Electrochemically Exfoliated Graphene for Supercapacitors and Sodium Batteries Cathode, Materials & Design, 2020, 188, 108440.IF=9.417, 中科院一区TOP

[8]. X. Zhao, Hongyan Li*, F. Han, M. Dai, Y. Sun, D. Han and Li Niu*, Electrochemical Exfoliation of Graphene as an Anode Material for Ultra-long Cycle Lithium Ion Batteries, Journal of Physics and Chemistry of Solids, 2020, 139, 109301.IF=4.383

[7].Hongyan Li,Z. Cheng, A. Natan, A. M. Hafez, D. Cao, Y. Yang, Hongli Zhu*. Dual-Function, Tunable, Nitrogen-Doped Carbon for High-Performance Li Metal-Sulfur Full Cell, Small,2019,1804609.IF=15.153, 中科院一区TOP

--2018年以前

[6]. Hongyan Li,S. Gan, H. Wang, Dongxue Han* and Li Niu*. Intercorrelated Superhybrid of AgBr Supported on Graphitic-C3N4 Decorated Nitrogen Doped Graphene: High Engineering Photocatalytic Activities for Water Purification and CO2 Reduction, Advanced Materials, 2015, 27, 6906-6913.IF=32.086, 中科院一区TOP, 内封面论文

[5].Hongyan Li, Y. Hou, F. Wang, M. R. Lohe, Xiaodong Zhuang*, Li Niu* and Xinliang Feng*. Flexible All-Solid-State Supercapacitors with High Volumetric Capacitances Boosted by Solution Processable MXene and Electrochemically Exfoliated Graphene, Advanced Energy Materials, 2016, 1601847.IF=29.698, 中科院一区TOP高被引论文,热点论文

[4].Hongyan Li#,Z. Cheng#, Q. Zhang, A. Natan, Y. Yang, D. Cao, Hongli Zhu*. Bacterial-Derived, Compressible, and Hierarchical Porous Carbon for High-Performance Potassium-ion Batteries, Nano Letters, 2018, 18,7407-7413.IF=12.262, 中科院一区TOP

[3].Hongyan Li, T. Wu, B. Cai, W. Ma, Y. Sun, S. Gan, Dongxue Han* and L. Niu. Efficiently photocatalytic reduction of carcinogenic contaminant CrVI upon robust AgCl:Ag hollow nanocrystals, Applied Catalysis B: Environmental, 2015, 164, 344-351.IF=24.319, 中科院一区TOP

[2]. Hongyan Li,Y. Sun, B. Cai, S. Gan, Dongxue Han* and L. Niu. Hierarchically Z-Scheme photocatalyst of Ag@AgCl decorated on BiVO4 (040) with enhancing photoelectrochemical and photocatalytic performance, Applied Catalysis B: Environmental, 2015, 170, 206-214.IF=24.319, 中科院一区TOP, 高被引论文

[1]. Hongyan Li, S. Gan, Dongxue Han*, W.Ma, B. Cai, W. Zhang, Q. Zhang and L. Niu. High performance Pd nanocrystals supported on SnO2-decorated graphene for aromatic nitro compound reduction, Journal of MaterialChemistry A, 2014, 2, 3461-3467.IF=14.511


发明专利


已授权中国发明专利(第一完成人):

[1]. 一种双碳层保护铋纳米颗粒复合物材料的制备方法和应用, 专利号:ZL202210096882.0

[2]. 一种超长循环多原子掺杂中空碳电极材料的制备及应用, 专利号:ZL202110725930.3

[3]. 一种介孔碳球及其制备方法和应用, 专利号:ZL202110484288.4

[4]. 一种碳包覆锑/三硫化二锑复合材料的制备方法及应用, 专利号:ZL202110726445.8

[5]. 一种钾离子电池负极材料及其制备方法和应用, 专利号:ZL202210676789.7

[6]. 一种超高倍率钾离子电池铋基复合负极材料的制备方法, 专利号:ZL202210700775.4

[7]. 一种取向结构的碳空心管/PEDOT:PSS水凝胶的制备方法及应用, 专利号:ZL202110727286.3


讲授课程


[1]. 本科生:《物理化学》,《新能源材料》,《材料科学进展》

[2]. 研究生:《新能源材料与器件》,《高等分析化学》,《生物材料》


社会职务


[1]. 广东省青年科学家协会会员;

[2]. 广东省材料研究学会青委会委员;

[3]. 教育部研究生学位论文评审专家;

[4]. 广东省科技厅项目函评专家;

[5]. beat365网页版登录官网欧美同学会会员;

[6]. 材料研究与应用期刊青年编委;

[7]. Rare Metals (一区)青年编委;

[8]. Chinese Chemical Letters(一区) 青年编委;

[9]. 20多个SCI期刊的通讯审稿/仲裁专家;