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
侯红帅,男,博士,教授,博士生导师,副系主任。
科睿唯安全球“高被引学者”,中国科协“青年人才托举工程”、湖湘青年英才计划、国家“博士后创新人才支持计划”入选者,湖南省优秀青年基金获得者。
获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(锂/钠/钾/锌离子电池)、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、Materials Today、Advanced Energy Materials、Advanced Functional Materials、ACS Nano、Science Bulletin、Advanced Science、Nano Energy、Energy Storage Materials等刊物上发表论文60余篇(IF>10论文42篇,IF>15论文30篇)。论文总被引用16000余次,H指数74。
申请中国发明专利60项,授权40项。
担任《Frontiers in chemistry》、《International Journal of Extreme Manufacturing 》客座编辑,《SmartMat》、《International Journal of Extreme Manufacturing 》、《Chinese Chemical Letters》、《Rare Metals》、《稀有金属》青年编委,英国皇家化学会会员(MRSC),中国化学会、中国有色金属学会、中国材料研究学会、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
3.主持项目:
[1] 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
[2] 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
[3] 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”,58万元,主持
[4] 快充型锂电池用XXX研究,50万元,主持
[5] 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
[6] 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
[7] 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
[8] 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
[9] 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
[10] 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
[11] 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
[12] 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=32.086, 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, 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=26.943, JCR一区,通讯作者)
[3] 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=29.698, JCR一区,通讯作者)
[4] 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=29.698, JCR一区,第一作者)
[5] 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=18.027, JCR一区,通讯作者)
[6] W. Hong, A. Wang, L. Li, T. Qiu, J. Li, Y. Jiang, G. Zou,H. Peng*,H. Hou*,X Ji. Bi Dots Confined by Functional Carbon as High Performance Anode for Lithium Ion Batteries. Advanced Functional Materials, 2021, 31,2000756. (IF=19.924, JCR一区,通讯作者)
[7] 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=19.924, JCR一区,通讯作者)
[8] 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= 20.577, JCR一区,通讯作者)
[9] 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= 20.831, JCR一区,通讯作者)
[10] 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 Interaction, Energy Storage Materials, 2022, 44, 145-155. (IF= 20.831, JCR一区,通讯作者)
[11] 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= 20.831, JCR一区,通讯作者)
[12] 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= 20.831, JCR一区,通讯作者)
[13] 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= 20.831, JCR一区,通讯作者)
[14] 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=17.521, JCR一区,第一作者)
[15] 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= 19.069, JCR一区,通讯作者)
[16] 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= 19.069, JCR一区,通讯作者)
[17] 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= 19.069, JCR一区,通讯作者)
[18] 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 = 23.665, JCR一区,通讯作者)
[19] 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 = 23.665, JCR一区,通讯作者)
[20] 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 = 23.665, JCR一区,通讯作者)
[21] 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 = 15.367, JCR一区,通讯作者)
[22] 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 = 15.367, JCR一区,通讯作者)
[23] 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 = 15.153, JCR一区,通讯作者)
[24] 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= 15.153, JCR一区,通讯作者)
[25] 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= 15.153, JCR一区,通讯作者)
[26] 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= 15.153, JCR一区,通讯作者)
[27] 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 = 16.744, JCR一区,通讯作者)
[28] 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 Battery. Chemical Engineering Journal 2023, 461, 142105. (IF = 16.744, JCR一区,通讯作者)
[29] 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 = 16.744, JCR一区,通讯作者)
[30] 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 = 16.744, JCR一区,通讯作者)
5.书籍专著
[1] Advanced Battery Materials,Wiley,2019.(第一章:Carbon Anode Materials for Sodium‐Ion Batteries)
[2] Advanced Carbon Chemistry for Rechargealbe Batteries, Frontiers in Chemistry, 2020.
[3] 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.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] 一种功能化碳点在锂电池电解液中的应用[P]. 中国专利:ZL202110147525.8.
[6] 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
[7] 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
[8] 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
[9] 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
[10] 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
[11] 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
[12] 一种杂原子掺杂的三维多孔碳材料、制备方法及其应用[P]. 中国专利:ZL201610463720.0
[13] 一种三维石墨烯的制备方法及其应用[P]. 中国专利:ZL201710188335.4
[14] 一种大面积石墨烯的制备方法及其应用[P]. 中国专利:ZL201710189278.1
[15] 一种三硫化二锑纳米点/硫掺杂碳复合材料及其制备方法和在钠/钾离子电池中的应用[P]. 中国专利:ZL201910893532.5
