Language : English
侯红帅
  • Personal Information

    Professor


    Supervisor of Doctorate Candidates


    Supervisor of Master's Candidates

    School/Department:Chemistry and Chemical Engineering

    Administrative Position:副系主任

    Business Address:中南大学新校区化学化工学院

    Contact Information:hs-hou@csu.edu.cn

    Alma Mater:中南大学

    Discipline:Chemistry
    Metallurgical Engineering

    Honors and Titles:
    湖南省自然科学一等奖
    湖南省高等教育教学成果奖二等奖
    湖湘青年英才计划
    湖湘青年科技创新人才计划
    中国科协“青年人才托举工程”
    国家“博士后创新人才支持计划”
    湖南省优青
    湖南省优秀博士论文
    湖南省优秀毕业生
  • Profile

    侯红帅,男,博士,教授,博士生导师

    科睿唯安全球“高被引学者”,中国科协“青年人才托举工程”、国家“博士后创新人才支持计划”,湖湘青年英才计划入选者、湖南省优秀青年基金获得者

    湖南省自然科学一等奖(R2)、湖南省高等教育教学成果奖二等奖(R3)湖南省“优秀博士论文”奖、中南大学研究生教育教学成果一等奖。

    主要从事先进电池材料与器件碳点功能材料的研究;重点围绕碳点在先进电池中的应用与储能机制开展系统研究,包括电极材料、电解液、固态电解质、膜及界面调控等。

    近年来,发表SCI论文200余篇,以第一/通讯作者在Advanced Materials、Angewandte Chemie International Edition、Materials TodayAdvanced Energy MaterialsAdvanced Functional MaterialsACS NanoChemical Science Coordination Chemistry Reviews、Science Bulletin、Advanced Science、Nano Energy、Energy Storage Materials等刊物上发表论文60余篇(IF>20论文15篇,IF>15论文37篇)。论文总被引用20000余次,H指数81

    撰写英文专著2部,参编英文专著1章节,参编中文专著1章节。申请中国发明专利60余项,授权40余项。

    担任《International Journal of Extreme Manufacturing》、《Frontiers in chemistry》客座编辑,《SmartMat》、《International Journal of Extreme Manufacturing 》、《Carbon Energy》、《Chinese Chemical Letters》、《Rare Metals》、《稀有金属》、《Progress in Natural Science:Materials International》等期刊青年编委。

    中国材料研究学会碳点功能材料分会委员,中国材料研究学会高级会员,英国皇家化学会会员(MRSC),中国化学会、中国有色金属学会、中国化工学会会员。

    1.主要研究方向:

    (1) 先进电池材料与器件

    (2) 碳点功能材料化学


    2.主要研究内容:

    (1) 先进电池(锂/钠/钾/锌离子电池)材料的设计、制备与器件构筑 

    (2) 碳点的宏量制备、精细调控与应用及产业化


    3.主持项目:

    [1] 国家自然科学基金面上项目“碳点调制高载量金属单原子催化剂的生长机理及室温钠硫电池应用研究”(22379165),50万元,主持

    [2] 国家自然科学基金面上项目“功能化碳点的宏量制备及其调控锂枝晶生长的动力学机制研究”(52074359),58万元,主持

    [3] 中国科协青年人才托举工程项目“碳量子点辅助合成Sb2S3微纳材料及其电化学储钠性能研究”,45 万元,主持

    [4] 湖湘青年科技创新人才计划,碳点基能源材料化学,50万元,主持

    [5] 快充型锂电池用XXX研究,50万元,主持

    [6] 国家博士后创新人才支持计划项目“基于碳量子点功能化碳材料的构筑及其储钠性能的研究”,60万元,主持

    [7] 湖南省优秀青年基金“高性能钠离子电池碳基负极材料”,20万元,主持

    [8] 国家自然科学基金青年基金“Sb2S3量子点的可控制备及电化学储钾性能研究”,25万元,主持

    [9] 国家重点研发计划“高安全长寿命高比能锂/硫动力电池关键技术”子任务“正极硫溶解抑制”,31.5万元,主持

    [10] 中南大学创新驱动项目“功能化碳材料的构建及其电化学储钠机制研究”,95万元,主持

    [11] 中南大学科研启动项目“碳量子点功能化碳材料及其复合材料的电化学储钠性能研究”,80万元,主持

    [12] 中国博士后科学基金面上项目一等资助“碳量子点辅助合成硫化铋基纳米材料及其储钠性能研究”,8万元,主持

    [13] 湖南省自然科学基金青年项目“碳量子点诱导的Sb2S3结构设计及电化学储钠行为研究”,5万元,主持


    4.代表性论文:
    [1] H. Hou, C. Banks, M. Jing, Y. Zhang, X. Ji*. Carbon Quantum Dots and Their Derivative 3D Porous Carbon Frameworks for Sodium-Ion Batteries with Ultralong Cyclelife. Advanced Materials, 2015, 27 (47), 7861–7866. (IF= 29.4, JCR一区,第一作者,被引用1000余次,首次提出了常温、常压下通过羟醛缩合反应宏量制备碳点的新方法。)

    [2] S. Li, X. Zhao, T. Wang, J. Wu, X. Xu, P. Li, X. Ji, H. Hou*, X. Qu, L. Jiao, Y. Liu*. Unraveling the "Gap-Filling" Mechanism of Multiple Charge Carriers in Aqueous Zn-MoS2 Batteries. Angewandte Chemie International Edition, 2024, 63, e202320075. (IF= 16.6, JCR一区,通讯作者,石墨烯量子点插层硫化钼,扩大层间距,提升电池倍率性能。)

    [3] S. Li, L. Li, H. Tu, H. Zhang, D. Silvester, C. Banks, G. Zou, H. Hou*, X. Ji. The Development of Carbon Dots: from the Perspective of Materials Chemistry. Materials Today, 2021, 51, 188-207. (IF=24.2, JCR一区,通讯作者)

    [4] H. Zhang, S. Li, L. Xu, R. Momen, W. Deng,  J. Hu, G. Zou, H. Hou*, X. Ji. High-yield Carbon Dots Interlayer for Ultra-Stable Zinc Batteries. Advanced Energy Materials, 2022, 12, 2200665. (IF=27.8, JCR一区,通讯作者)

    [5] H. Hou, X. Qiu, W. Wei, Y. Zhang, X. Ji*. Carbon Anode Materials for Advanced Sodium-Ion Batteries. Advanced Energy Materials, 2017, 7, 1602898. (IF=27.8, JCR一区,第一作者)

    [6] L. Xu, S. Li, H. Tu, F. Zhu,H. Liu, W. Deng, J. Hu, G. Zou, H. Hou*, X. Ji. Molecular Engineering of Highly Fluorinated Carbon Dots: Tailoring Li+ Dynamics and Interfacial Fluorination for Stable Solid Lithium Batteries. ACS Nano, 2023, 17, 22082–22094. (IF=17.1, JCR一区,通讯作者)

    [7] L. Li, Y. Li, Y. Ye, R. Guo, A. Wang, G. Zou, H. Hou*, X. Ji. Kilogram-Scale Synthesis and Functionalization of Carbon Dots for Superior Electrochemical Potassium Storage. ACS Nano, 2021,  15, 6872–6885. (IF=17.1, JCR一区,通讯作者)

    [8] M. Yi, M. Jing*, Y. Yang, Y. Huang, G. Zou, T. Wu*, H. Hou*, X. Ji. Recent Developments of Carbon Dots for Advanced Zinc-based Batteries: A Review. Advanced Functional Materials, 2024, 34, 2400001. (IF=19, JCR一区,通讯作者)

    [9] R. Zhao, C. Liu, Y. Zhu*, G. Zou, H. Hou*, X. Ji. Pathways for MXenes in Solving the Issues of Zinc-ion Batteries: Achievements and Perspectives. Advanced Functional Materials, 2024, 34, 2316643. (IF=19, JCR一区,通讯作者)

    [10] Z. Zhao, G. Sun*, Y. Zhang, R. Hua, X. Wang, N. Wu*, J. Li, G. Liu, D. Guo, A. Cao, X. Liu, H. Hou*. Introduction of SnS2 to Regulate the Ferrous Disulfide Phase Evolution for the Construction of Triphasic Heterostructures Enabling Kinetically Accelerated and Durable Sodium Storage. Advanced Functional Materials, 2024, 34, 2314679. (IF=19, JCR一区,通讯作者)

    [11] Y. Huang, X. Zhong, X. Hu, Y. Li, K. Wang, H. Tu, W. Deng, G. Zou, H. Hou*, X. Ji. Rationally Designing Closed Pore Structure by Carbon Dots to Evoke Sodium Storage Sites of Hard Carbon in Low-Potential Region. Advanced Functional Materials, 2024, 34, 2308392. (IF=19, JCR一区,通讯作者)

    [12] X. Zhong, J. Duan, Y. Xiang, X. Hu, Y. Huang, Y. Li, W. Deng, G. Zou, H. Hou*,  X. Ji. Constructing Rich Interfacial Structure by Carbon Dots to Improve the Sodium Storage Capacity of Sb/C composite. Advanced Functional Materials, 2023, 33, 2306574. (IF=19, JCR一区,通讯作者)

    [13] Y. Xiang, X. Hu, X. Zhong, W. Deng, G. Zou*, H.Hou*, X. Ji. Mechanism of Fast Storage of Li/Na in Complex Sb-based Hybrid System. Advanced Functional Materials, 2024, 34, 2311478. (IF=19, JCR一区,通讯作者)

    [14] W. Hong, A. Wang, L. Li, T. Qiu, J. Li, Y. Jiang, G. Zou,H. Peng*, H. Hou*,X Ji. Bi Dots Confined by FunctionaCarbon as High Performance Anode for Lithium Ion Batteries. Advanced Functional Materials, 2021, 31, 2000756. (IF=19, JCR一区,通讯作者)
    [15] G. Zhao, Y. Zhang, L. Yang, Y. Jiang, W. Hong, Y. Tian, H. Zhao, J. Hu, L. Zhou, H. Hou*, X. Ji, L. Mai. Nickel Chelate Derived NiS2 Decorated with Bifunctional Carbon: an Efficient Strategy to Promote Sodium Storage Performances. Advanced Functional Materials, 2018, 28, 1803690. (IF=19, JCR一区,通讯作者)

    [16] Y. Li, Y. Mei, R. Momen, B. Song, Y. Huang, X. Zhong, H. Ding, W. Deng, G. Zou, H. Hou*, X. Ji. Boosting the Interfacial Dynamics and Thermodynamics in Polyanion Cathode by Carbon Dots for Ultrafast-Charging Sodium Ion BatteriesChemical Science, 2024, 15, 349-363. (IF=8.4, JCR一区,通讯作者)

    [17] H. Tu, H. Liu, L. Xu, Z. Luo, L. Li, Y. Tian, W. Deng, G. Zou, H. Hou*, X. Ji*. Carbon Dots from Alcohol Molecules: Principles and the Reaction Mechanism. Chemical Science, 2023, 14, 12194-12204. (IF=8.4, JCR一区,通讯作者)

    [18] H. Liu, X. Zhong, Q. Pan, Y. Zhang, W. Deng, G. Zou, H. Hou* X. Ji. A review of carbon dots in synthesis strategy. Coordination Chemistry Reviews, 2024, 498, 215468. (IF=20.6, JCR一区,通讯作者)

    [19] D. Liu, L. Yang, Z. Chen, G. Zou, H. Hou*, J. Hu*, X. Ji. Ultra-stable Sb confined into N-doped carbon fibers anodes for high-performance potassium-ion batteries. Science Bulletin, 2020, 65, 1003-1012. (IF= 18.9, JCR一区,通讯作者)

    [20] K. Ding, Y. Ye, J. Hu*, L. Zhao, W. Jin, J. Luo, S. Cai, B. Weng, G. Zou, H. Hou*, X. Ji. Aerophilic Triphase Interface Tuned by Carbon Dots Driving Durable and Flexible Rechargeable Zn-Air Batteries. Nano-Micro Letters, 2023, 15, 28. (IF = 26.6, JCR一区,通讯作者)

    [21] Y. Xiang, L. Xu, Li, Yang, Y. Ye, Z. Ge, J. Wu, W. Deng, G. Zou, H. Hou*, X. Ji. Natural Stibnite for Lithium/Sodium Ion Batteries: Carbon Dots Evoked High Initial Coulombic Efficiency. Nano-Micro Letters, 2022, 14, 136. (IF = 26.6, JCR一区,通讯作者)

    [22] Y. Zhu, J. Li, X. Yun, G. Zhao, P. Ge, G. Zou, Y. Liu, H. Hou*, X Ji. Graphitic Carbon Quantum Dots Modified Nickel Cobalt Sulfide as Cathode Materials for Alkaline Aqueous Batteries. Nano-Micro Letters, 2020, 12, 16. (IF = 26.6, JCR一区,通讯作者)

    [23] J.  Wu,  B.  Song,  Z.  Ge,  X. Xiao, W. Deng,  G.  Zou, H. Hou*, X. Ji.  Bifunctional  Electrolyte  Additive  for  Stable  Zn  Anode:   Reconstructing Solvated Structure and Guiding Oriented Growth of ZnEnergy Storage Materials, 2023, 63, 103000. (IF= 20.4, JCR一区,通讯作者)

    [24] A. Wang, W. Hong, L. Li, R. Guo, Y. Xiang, Y. Ye, W. Deng, G. Zou, H. Hou*, X. Ji. Bi3Se4 nanodots in porous carbon: a new anode candidate for fast lithium/sodium storage, Energy Storage Materials, 2022, 53, 1-12. (IF= 20.4, JCR一区,通讯作者)

    [25] A.  Wang, W.  Hong, L.  Li, R.  Guo, Y. Xiang, Y. Ye, G. Zou, H. Hou*, X. Ji. Hierarchical  Bismuth  Composite  for  Fast  Lithium Storage: CarbonDots Tuned Interfacial InteractionEnergy Storage Materials, 2022, 44, 145-155. (IF=  20.4, JCR一区,通讯作者)

    [26] S. Li,  Z. Luo,  H. Tu ,  H. Zhang, W. Deng, G. Zou, H. Hou*, X. Ji.  N,S-Codoped  Carbon  Dots  as  Deposition  Regulating  Electrolyte  Additive  for Stable Lithium Metal Anode, Energy Storage Materials, 2021, 42, 679–686. (IF=  20.4, JCR一区,通讯作者)

    [27] R. Guo, L. Li, B. Wang, Y. Xiang, G. Zou, Y. Zhu, H. Hou*, X. Ji. Functionalized Carbon Dots for Advanced Batteries, Energy Storage Materials, 2021, 37, 8-39. (IF=  20.4, JCR一区,通讯作者)

    [28] S. Li, Z. Luo, L. Li, J. Hu, G. Zou, H. Hou*, X. Ji. Recent Progress on Electrolyte Additives for Stable Lithium Metal Anode, Energy Storage Materials, 2020, 32, 306-319. (IF=  20.4, JCR一区,通讯作者)

    [29] L. Xu, H. Tu, F. Zhu, Y. Xiang, Z. Luo, S. Fang, W. Deng, G. Zou, H. Hou, X. Ji. Carbon dots for ultrastable solid‐state batteries. SmartMat, 2022, 3, 286-297. (IF =20.4)

    [30] H. Hou, L. Shao, Y. Zhang, G. Zou, J. Chen, X. Ji*. Large-Area Carbon Nanosheets Doped with Phosphorus: A High-Performance Anode Material for Sodium-Ion Batteries, Advanced Science, 2017, 4, 1600243. (IF=15.1, JCR一区,第一作者)

    [31] Z. Ge, L. Xu, Y. Xu, J. Wu, Z. Geng, X. Xiao, W. Deng, G. Zou, H. Hou*, X. Ji. Multifunctional Fluorinated Carbon Dots Artificial Interface Layer Coupled with in-situ Generated Zn2+ Conductor Interlayer Enable Ultra-stable Zn Anode. Nano Energy2024, 119, 109053. (IF= 17.6, JCR一区,通讯作者)

    [32] H. Zhang, R. Guo, S. Li, C. Liu, H. Li, G. Zou, J. Hu, H Hou*, X Ji. Graphene Quantum Dots Enable Dendrite-Free Zinc Ion Battery. Nano Energy, 2022, 92,106752. (IF= 17.6, JCR一区,通讯作者)

    [33] W. Hong, Y. Zhang, L. Yang, Y. Tian, P. Ge, J. Hu, W. Wei, G. Zou, H. Hou*, X. Ji. Carbon quantum dot micelles tailored hollow carbon anode for fast potassium and sodium storage. Nano Energy, 2019, 64, 104038. (IF= 17.6, JCR一区,通讯作者)

    [34] P. Ge, S. Li, H. Shuai, W. Xu, Y. Tian, L. Yang, G. Zou, H. Hou*, X. Ji. Engineering 1D Chain-like Architecture with Conducting Polymer Towards Ultra-fast and High-capacity Energy Storage by Reinforced Pseudo-capacitance, Nano Energy, 2018, 54, 26-38. (IF= 17.6, JCR一区,通讯作者)

    [35] Y. Ye, H. Wang, H. Liu, Y. Xiang, L. Liu, W. Deng, G. Zou, Y. Liu, H. Hou*, X. Ji. Carbon Dots Regulated Pomegranate-like Metal Oxide Composites:  From Growth Mechanism to Lithium Storage. Small Methods, 2022, 6, 2200245. (IF = 12.4, JCR一区,通讯作者)

    [36] T. Qiu, L. Yang, Y. Xiang, Y. Ye, G. Zou, H. Hou*, X. Ji. Heterogeneous Interface Design for Enhanced Sodium Storage: Sb Quantum Dots Confined by Functional Carbon. Small Methods, 2021, 5, 2100188. (IF  = 12.4, JCR一区,通讯作者)

    [37] H. Liu, L. Xu, H. Tu, Z. Luo, F. Zhu, W. Deng,  G. Zou,  H. Hou*, X. Ji. Interfacial Interaction of Multifunctional GQDs Reinforcing Polymer Electrolytes for All-Solid-State Li Battery, Small, 2023, 19, 2301275. (IF = 13.3, JCR一区,通讯作者)

    [38] L. Xu, J. Li, L. Li, Z. Luo, Y. Xiang, W. Deng, G. Zou, H. Hou*, X. Ji. Carbon Dots Evoked Li Ion Dynamics for Solid State Battery, Small, 2021, 17, 2102978. (IF= 13.3, JCR一区,通讯作者)

    [39] R. Cheng#, Y. Xiang#, R. Guo, L. Li, G. Zou, C. Fu*, H. Hou*, X. Ji. Structure and interface modification of carbon dots for electrochemical energy application, Small, 2021, 17, 2102091. (IF= 13.3, JCR一区,通讯作者)

    [40] A. Wang, W. Hong, L. Yang, Y. Tian, X. Qiu, G. Zou, H. Hou*, X. Ji. Bi-based electrode materials for alkali metal-ion batteries, Small, 2020, 16, 2004022. (IF= 13.3, JCR一区,通讯作者)

    [41] S. Lu, Z. Chen, H. Tu, H. Liu, Y. Liu, S. Chen, D. Cai, C. Liu, X. Zhang, G. Zou, H. Xie, X. Ji, H. Hou*, J. Zhou*. Multifunctional carbon quantum dots decorated self-healing hydrogel for highly effective treatment of superbug infected wounds. Chemical Engineering Journal 2023, 466, 43054. (IF = 15.1, JCR一区,通讯作者)

    [42] Z. Ge, H. Zhang, J. Wu, Y. Xu, W. Deng, G. Zou, D. He*, H. Hou*, C. Wang, X. Ji. Multifunctional Fullerene Protective Layer for Dendrite-Free Zn Metal Anode.  Chemical Engineering Journal 2023, 466, 43054. (IF = 15.1, JCR一区,通讯作者)

    [43] H. Zhang, Z. Luo, W. Deng, J. Hu, G. Zou, H. Hou*, X. Ji. Interfacial Reconstruction via Electronegative Sulfonated Carbon Dots in Hybrid Electrolyte for Ultra-durable Zinc BatteryChemical Engineering Journal 2023, 461, 142105. (IF = 15.1, JCR一区,通讯作者)  

    [44] H. Xie, H. Luo*, Y. Liu, R. Guo, X. Ji, H. Hou*, D. Zhang*. Extremely Low Loading of Carbon Quantum Dots for High Energy Density in Polyetherimide Nanocomposites. Chemical Engineering Journal 2021, 433,133601. (IF = 15.1, JCR一区,通讯作者)

    [45] L. Yang, W. Hong, Y. Tian, G. Zou, H. Hou*, W. Sun*, X. Ji. Heteroatom-doped carbon inlaid with Sb2X3 (X= S, Se) nanodots for high-performance potassium-ion batteries. Chemical Engineering Journal 2020, 385, 123838. (IF = 15.1, JCR一区,通讯作者)


    5.书籍专著
    [1] 《
    Sodium-Ion Batteries:  Technologies and Applications,WILEY-VCH, 2023.

    [2] 《Sodium-Ion Capacitors: Mechanisms, Materials, and Technologies》,WILEY-VCH, 2023.

    [3] 《Advanced Battery Materials》,Wiley,2019.(第一章:Carbon Anode Materials for Sodium‐Ion Batteries)

    [4] 《Advanced Carbon Chemistry for Rechargealbe Batteries, Frontiers in Chemistry, 2020.

    [5] 《中国新材料研究前沿报告2021,化学工业出版社,2022. (第五章:新兴的碳纳米材料:碳点)

    [6] 《中国新材料科学普及报告2022—走近前沿新材料4》,化学工业出版社,2023.(第十四章:碳点—新型碳纳米材料)


    6.代表性授权专利:
    [1] 一种酸辅助醛酮合成碳量子点的方
    法[P]. 中国专利:ZL201711449634.5

    [2] 通过醛类化合物快速、高产制备碳量子点的方法[P]. 中国专利:ZL201510412310.9
    [3] 一种碱性条件下酮碳化制备碳量子点的方法[P].中国专利:ZL201410756169.X
    [4] 一种醇分解制备碳量子点的方法[P]. 中国专利:ZL201410566040.2

    [5]一种大量制备氮掺杂的碳量子点的方法及碳量子点[P]. 中国专利:ZL202210328770.3

    [6]一种高浓度氟掺杂的碳点及其制备方法[P]. 中国专利:ZL202210818658.8

    [7]碳点调控的金属硫化物/金属单质-碳复合材料及其制备方法和在锂/钠离子电池中的应用[P]. 中国专利:ZL202210361216.5

    [8] 一种功能化碳点在锂电池电解液中的应用[P]. 中国专利:ZL202110147525.8.

    [9] 一种基于碳量子点模板法制备中空结构材料的方法[P]. 中国专利:ZL201910376086.0

    [10] 一种碳量子点调控的多孔氟磷酸钒钠复合材料及其制备方法和应用[P]. 中国专利:ZL202111079878.5

    [11] 一种碳点调控的金属硒化物/碳复合材料及其制备方法和应用[P]. 中国专利:ZL202111111635.5

    [12] 一种疏水性碳点改性的正渗透复合膜的制备方法[P]. 中国专利:ZL202010411879.4

    [13] 一种氨改性碳量子点及其制备方法和在锂硫电池电解液中的应用[P]. 中国专利:ZL201910660951.4

    [14]一种基于锂化碳点改性的复合电解质及其制备方法和应用[P]. 中国专利:ZL202210078871. X

    [15]一种碳点调控的金属氧化物-碳复合材料及其制备方法和应用[P]. 中国专利:ZL202210365112.1

    [16] 一种磷掺杂二维碳材料的制备方法及其在钠离子电池中的应用[P]. 中国专利:ZL201610130141.4
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