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周江

姓名 周江
性别
学校 中南大学
部门 材料科学与工程学院
学位 博士学位
学历 研究生(博士)毕业
职称 教授
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个人简介 周江,中共党员,中南大学材料科学与工程学院教授,博士生导师。Nano-Micro Letters(SCI, IF= 26.6)、Frontiers in Chemistry期刊副主编,National Science Review材料学科编辑。物理化学学报编委,InfoMat (SCI, IF= 22.7)、eScience、Journal of Advanced Ceramics青年编委。先后为Nano-Micro Letters、Next Energy、Frontiers in Chemistry期刊组织水系电池或水系锌电池专刊,并担任专刊客座编辑。中国材料研究学会高级会员,中国化学会会员,英国皇家化学学会会员。中南大学本科,中南大学-新加坡南洋理工大学联合培养博士。先后在新加坡南洋理工大学(NTU,合作导师Hua Zhang教授)、美国麻省理工学院(MIT,合作导师Ju Li教授)从事锂(钠)离子电池、多价离子电池等研究工作。研究兴趣为水系锌离子电池、锂(钠)离子电池、超级电容器等。   以一作或通讯作者在Nature Commun., Natl. Sci. Rev., Adv. Mater., Energy Environ. Sci., Angew. Chem., Matter, Nano-Micro Lett., Adv. Energy Mater., Adv. Funct. Mater., ACS Energy Lett., ACS Nano, ACS Mater. Lett., Nano Energy, Energy Storage Mater., Adv. Sci., Acta Mater., Sci. Bull., Nano Res.,科学通报等期刊发表论文100余篇,被引26000余次,H-index指数85。曾入选ESI高被引论文90余篇,热点论文40余篇,3篇论文入选“中国百篇最具影响国际学术论文”,4篇论文入选Nano-Micro Lett.期刊年度最高引用论文之一。入选科睿唯安全球高被引科学家(2021年至今),爱思唯尔中国高被引学者(2021年至今), JMCA、Inorg. Chem. Front.新锐科学家。受邀为Angew. Chem., Energy Environ. Sci., ACS Energy Lett., InfoMat等国内外一流期刊撰写综述或者研究性论文,其中2018年发表在ACS Energy Lett.的锌电池综述,是该期刊历史引用第一名,已经被引1500余次;是Chem. Rev., Nat. Energy, Nat. Rev. Chem., Nature Commun., Joule, Chem, Matter, Adv. Mater., Energy Environ. Sci., Angew. Chem.等期刊的特邀审稿人。   入选国家万人计划青年拔尖人才、“湖湘青年英才”、“湖湘青年科技创新人才”、湖南省首届研究生导师团队,获得中南大学2019-2021年度“优秀共产党员”,主持国家自然科学基金面上项目 (2项)、青年科学基金项目、湖南省杰出青年科学基金、中南大学青年人才项目、中南大学特聘教授科研基金项目等,作为核心成员参与国家自然科学基金重点项目一项。   研究生培养:曾指导(含合作指导)的研究生多人次获得湖南省百佳学生党员、芙蓉学子-学术创新奖、中南大学十佳博士、十佳硕士、十佳青年、中南大学年度人物、研究生国家奖学金、拔尖博士奖学金、中南大学优秀博士、硕士学位论文等荣誉,多名研究生考取海(境)外著名高校攻读博士学位或博士联合培养。本科生培养:多名本科生以共同作者身份在国际SCI期刊上发表论文和申请国家专利,多人次获国家、省、校级本科生创新类项目立项,获得“创青春”、“互联网+”大学生创新创业大赛国家、省和学校奖项,多名本科生通过课题组的创新培养先后考入了海(境)外著名高校继续深造。   热烈欢迎大家报考本课题组的博士后、博士和硕士,大家一起努力! E-mail:zhou_jiang@csu.edu.cn 办公地址:中南大学特冶楼306   加入中南大学以来发表的部分论文,(共同)一作或者通讯作者: 领域顶刊系列论文: 1.       Jiang Zhou,* et. al. Critical challenges and solutions: Quasi-solid-state Electrolytes for Zinc-based Batteries. Energy & Environmental Science, 2024, DOI: 10.1039/D4EE00357H. https://pubs.rsc.org/en/content/articlelanding/2024/ee/d4ee00357h/unauth 2.       Jiang Zhou,* et. al. Single [0001]-oriented zinc metal anode enables sustainable zinc batteries. Nature Communications, 2024, 15, 2735. https://doi.org/10.1038/s41467-024-47101-1 3.       Jiang Zhou,* et. al. Validating operating stability and biocompatibility towards safer zinc-based batteries. Advanced Materials, 2024, 2308836. https://doi.org/10.1002/adma.202308836 4.       Jiang Zhou,* et. al. Self-Reconstruction of Highly Degraded LiNi0.8Co0.1Mn0.1O2 towards Stable Single-Crystalline Cathode. Advanced Materials, 2024, 36, 2307091. 5.       Jiang Zhou,* et. al. Tailoring grain boundary stability of zinc-titanium alloy for long-lasting aqueous zinc batteries. Nature Communications, 2023, 14:7080. https://doi.org/10.1038/s41467-023-42919-7. 6.       Jiang Zhou,* et. al. Biocompatible zinc battery with programmable electro-crosslinked electrolyte. National Science Review, 2023, 10, nwac281. https://doi.org/10.1093/nsr/nwac281 (ESI高被引论文、热点论文) 7.       Jiang Zhou,* et. al. Achieving Highly Proton-Resistant Zn-Pb Anode through Low Hydrogen Affinity and Strong Bonding for Long-Life Electrolytic Zn//MnO2 Battery. Advanced Materials, 2023, 35, 2300577. (ESI高被引论文、热点论文,获评湖南省自然科学一等优秀学术论文) 8.       Jiang Zhou,* et. al. Triple-function Hydrated Eutectic Electrolyte for Enhanced Aqueous Zinc Batteries. Angew. Chem. Int. Ed., 2023, 62, e202310577. 9.       Jiang Zhou,* et. al. Zincophilic Electrode Interphase with Appended Proton Reservoir Ability Stabilizes Zn Metal Anodes. Angew. Chem. Int. Ed., 2023, 62, e202215324. (ESI高被引论文、热点论文) 10.     Jiang Zhou,* et. al. A Universal Molten Salt Method for Direct Upcycling of Spent Ni-rich Cathode towards Single-crystalline Li-rich Cathode. Angew. Chem. Int. Ed., 2023, 62, e202218672. (ESI高被引论文) 11.     Jiang Zhou,* et. al. Self-assembled multilayers direct a buffer interphase toward long-life aqueous zinc-ion batteries. Energy & Environmental Science, 2023, 16, 3381. (ESI高被引论文、热点论文) 12.     Jiang Zhou,* et. al. Dual mechanism of ion−(de)intercalation and iodine redox towards advanced zinc battery. Energy & Environmental Science, 2023, 16, 2358-2367. (ESI高被引论文、热点论文) 13.     Jiang Zhou,* et. al. Constructing Fast-Ion-Conductive Disordered Interphase for High-Performance Zinc-Ion and Zinc-Iodine Batteries. Matter. 2022, 5(12), 4363-4378. 14.     Jiang Zhou,* et. al. Design Strategies for High-Energy-Density Aqueous Zinc Batteries. Angew. Chem. Int. Ed., 2022, 61, e202200598. (ESI高被引论文、热点论文) 15.     Jiang Zhou,* et. al. Opportunities for biocompatible and safe zinc-based batteries. Energy & Environmental Science, 2022, 15, 4911-4927. 16.     Jiang Zhou,* et. al. Emerging strategies for steering orientational deposition toward high-performance Zn metal anodes. Energy & Environmental Science, 2022,15, 5017-5038. (ESI高被引论文、热点论文) 17.     Jiang Zhou,* et. al. Eutectic electrolyte based on N-methylacetamide for highly reversible zinc–iodine battery. Energy & Environmental Science, 2022, 15, 1192-1200. (ESI高被引论文) 18.     Jiang Zhou,* et. al. An ion-sieving Janus separator toward the planar electrodeposition for deeply rechargeable Zn metal anode. Advanced Materials, 2022, 34, 2205175. (ESI高被引论文) 19.     Jiang Zhou,* et. al. Spontaneous Construction of Nucleophilic Carbonyl-Containing Interphase towards Ultra-Stable Zinc Metal Anodes. Advanced Materials, 2022, 34, 2202733. (ESI高被引论文、热点论文) 20.     Jiang Zhou,* et. al. Organic-Inorganic Hybrid Cathode with Dual Energy Storage Mechanism for Ultra-High-Rate and Ultra-Long-Life Aqueous Zinc-Ion Batteries. Advanced Materials, 2022, 34, 2105452. (ESI高被引论文) 21.     Jiang Zhou,* et. al. Integrated “all-in-one” strategy to stabilize zinc anodes for high-performance zinc-ion batteries. National Science Review, 2022, 9, nwab177. (ESI高被引论文、热点论文) 22.     Jiang Zhou,* et. al. Surface-Preferred Crystal Plane for a Stable and Reversible Zinc Anode. Advanced Materials, 2021, 33, 2100187. (ESI高被引论文、热点论文) 23.     Jiang Zhou,* et. al. Cell-like-carbon-micro-spheres for robust potassium anode. National Science Review, 2021, 8, nwaa276. (ESI高被引论文、热点论文) 24.     Jiang Zhou,* et. al. Manipulating the Ion-Transference Kinetics and Interface Stability for High-Performance Zinc Metal Anode. Energy & Environmental Science, 13 (2020) 503-510. (ESI高被引论文,热点论文) 25.     Jiang Zhou,* et. al. Fundamentals and perspectives in developing zinc-ion battery electrolytes: A comprehensive review. Energy & Environmental Science, 2020,13, 4625-4665. (ESI高被引论文) 26.     Jiang Zhou,* et. al. Issues and Opportunities Facing Aqueous Zinc-ion Batteries. Energy & Environmental Science, 12 (2019) 3288-3304. (ESI高被引论文,热点论文) 27.     Jiang Zhou,* et. al. Structural Perspective on Revealing Energy Storage Behaviors of Silver Vanadates Cathode in Aqueous Zinc-Ion Batteries. Acta Materialia, 180 (2019) 51-59. 28.     Jiang Zhou,* et. al. Li+ intercalated V2O5.nH2O with enlarged layer spacing and fast ion diffusion as an aqueous zinc-ion battery cathode, Energy & Environmental Science, 11 (2018) 3157-3162. (ESI高被引论文,热点论文)     其他高水平期刊(IF>15)论文: 29.     Jiang Zhou,* et. al. Solvation Modulation and Reversible SiO2-Enriched Interphase Enabled by Deep Eutectic Sol Electrolytes for Low-Temperature Zinc Metal Batteries. Advanced Energy Materials, 2024, 20230341. DOI:10.1002/aenm.202303411 30.     Jiang Zhou,* et. al. Achieving stable zinc metal anode via polyaniline interface regulation of Zn ion flux and desolvation. Advanced Functional Materials. 2024, 34, 2214033. (ESI高被引论文、热点论文) 31.     Jiang Zhou,* et. al. Separator designs for aqueous zinc-ion batteries. Science Bulletin, 2024, 69, 688-703. 32.     Jiang Zhou,* et. al. Covalent organic framework with 3D ordered channel and multi-functional groups endows Zn anode with superior stability. Nano-Micro Letters, 2024, 16:76. 33.     Jiang Zhou,* et. al. Hetero nucleus growth stabilizing zinc anode for high-biosecurity zinc-ion batteries. Nano-Micro Letters, 2023, 15:237. 34.     Jiang Zhou,* et. al. A dynamic electrostatic shielding layer toward highly reversible Zn metal anode. Energy Storage Materials. 2023, 62, 102949. 35.     Jiang Zhou,* et. al. Electric double layer design for Zn-based batteries, Energy Storage Materials 2023, 62, 102932. 36.     Jiang Zhou,* et. al. Spirally grown zinc-cobalt alloy layer enables highly reversible zinc metal anodes, Advanced Functional Materials, 2023, 33, 2306101. 37.     Jiang Zhou,* et. al. Interfacial Molecule Engineering for Reversible Zn Electrochemistry. ACS Energy Letters. 2023, 8, 3258−3268. 38.     Jiang Zhou,* et. al. Aqueous batteries for human body electronic devices. ACS Energy Letters. 2023, 8, 2904-2918. 39.     Jiang Zhou,* et. al. Carboxymethyl chitosan modified zinc anode for high-performance zinc-iodine battery with narrow operating voltage, Small Structures. 2023, 4, 2300020. (ESI高被引论文、热点论文) 40.     Jiang Zhou,* et. al. Facing the Capacity fading of Vanadium-based Zinc-ion Batteries: Status, Mechanisms and Strategies. Trends in Chemistry. 2023, 5, 380-392. (Cell系列刊物,ESI高被引论文、热点论文) 41.     Jiang Zhou,* et. al. Metal-Organic Frameworks and Beyond: The Road toward Zinc-Based Batteries. Coordination Chemistry Reviews, 2023, 488, 215190. (ESI高被引论文) 42.     Jiang Zhou,* et. al. A flexible and safe planar zinc-ion micro-battery with ultrahigh energy density enabled by interfacial engineering for wearable sensing systems. Advanced Functional Materials, 2023, 33, 2303009. 43.     Jiang Zhou,* et. al. A Functionalized Separator Enables Dendrite-Free Zn Anode via Metal-Polydopamine Coordination Chemistry. InfoMat, 2023, 5, e12374. (ESI高被引论文、热点论文) 44.     Jiang Zhou,* et. al. Stabling Zinc Metal Anode with Polydopamine Regulation through Dual Effects of Fast Desolvation and Ion Confinement. Advanced Energy Materials, 2023, 13, 2203523. (ESI高被引论文) 45.     Jiang Zhou,* et. al. Concave Engineering of Hollow Carbon Spheres toward Advanced Anode Material for Sodium/Potassium-Ion Batteries. Advanced Energy Materials, 2022, 12, 2202851. 46.     Jiang Zhou,* et. al. Manipulating ion concentration to boost two-electron Mn4+/Mn2+ redox kinetics through colloid electrolyte for high-capacity zinc batteries. Advanced Energy Materials. 2022, 12, 2102393. 47.     Jiang Zhou,* et. al. In Situ Induced Coordination between a Desiccant Interphase and Oxygen-Deficient Navajoite towards Highly Efficient Zinc Ion Storage. Advanced Energy Materials. 2022, 12, 2201434. 48.     Jiang Zhou,* et. al. Synergetic Effect of Alkali-Site Substitution and Oxygen Vacancy Boosting Vanadate Cathode for Super-Stable Potassium and Zinc Storage. Advanced Functional Materials. 2022, 32, 2203819. 49.     Jiang Zhou,* et. al. Deep Eutectic Solvent Electrolyte with Ligand-Oriented Solvation Shell to Boost the Stability of Zinc Battery. Advanced Functional Materials. 2022, 32, 2110957. 50.     Jiang Zhou,* et. al. Regulating Zinc Deposition Behaviors by the Conditioner of PAN Separator for Zinc-ion Batteries. Advanced Functional Materials. 2022, 22, 2109671. 51.     Jiang Zhou,* et. al. Tuning Zn2+ coordination tunnel by hierarchical gel electrolyte for dendrite-free zinc anode. Science Bulletin, 2022, 67(9): 955-962. (ESI高被引论文、热点论文) 52.     Jiang Zhou,* et. al. Metal–Organic Frameworks Functionalized Separators for Robust Aqueous Zinc‑Ion Batteries. Nano-Micro Lett., 2022, 14, 218. (ESI高被引论文、热点论文) 53.     Jiang Zhou,* et. al. Interfacial Engineering Strategy for High-Performance Zinc Metal Anode. Nano-Micro Lett. 2022, 14, 6. (ESI高被引论文、热点论文) 54.     Jiang Zhou,* et. al. Insights into Complexing Effects in Acetate-based Zn-MnO2 Batteries and Performance Enhancement by All-round Strategies. Energy Storage Materials 2022, 52, 104. 55.     Jiang Zhou,* et. al. Smelting-Rolling Strategy for ZnIn Bulk Phase Alloy Anode. Chem. Sci., 2022, 13, 11656. 56.     Jiang Zhou,* et. al. Synergetic stability enhancement with magnesium and calcium ions substitution for Ni/Mn-based P2-type sodium-ion battery cathode. Chem. Sci., 2022, 13, 726-736. 57.     Jiang Zhou,* et. al. pH-Buffer Contained Electrolyte for Self-Adjusted Cathode-Free Zn–MnO2 Batteries with Coexistence of Dual Mechanisms. Small Structures. 2021, 2, 2100119. (ESI高被引论文、热点论文) 58.     Jiang Zhou,* et. al. Mechanistic Insights of Mg2+-electrolyte Additive for High-Energy and Long-life Zinc-ion Hybrid Capacitors. Advanced Energy Materials. 2021, 11, 2101158. (ESI高被引论文) 59.     Jiang Zhou,* et. al. Electrolyte Strategies toward Better Zinc-Ion Batteries. ACS Energy Lett. 2021, 6, 1015-1033. (ESI高被引论文、热点论文) 60.     Jiang Zhou,* et. al. Stabilization of Zn Metal Anode through Surface Reconstruction of a Cerium-based Conversion Film. Advanced Functional Materials. 2021, 31, 2103227. 61.     Jiang Zhou,* et. al. Interfacial Adsorption-Insertion Mechanism Induced by Phase Boundary Towards Better Aqueous Zn-Ion Battery. InfoMat. 2021, 3(9), 1028-1036. (ESI高被引论文、热点论文) 62.     Jiang Zhou,* et. al. Highly Reversible Zinc-Ion Battery Enabled by Suppressing Vanadium Dissolution through Inorganic Zn2+ Conductor Electrolyte. Nano Energy, 2021, 90, 106621. 63.     Jiang Zhou,* et. al. Inorganic Colloidal Electrolyte for Highly Robust Zinc-Ion Batteries. Nano-Micro Letters, 2021, 13, 69. (ESI高被引论文、热点论文) 64.     Jiang Zhou,* et. al. Highly Dispersed Cobalt Nanoparticles Embedded in Nitrogen-Doped Graphitized Carbon for Fast and Durable Potassium Storage. Nano-Micro Letters, 2021, 13, 21. (ESI高被引论文) 65.     周江*,等. 水系可充锌电池的发展及挑战, 科学通报,65 (2020) 3562-3584. 66.     Jiang Zhou,* et. al. A Sieve-Functional and Uniform-Porous Kaolin Layer toward Stable Zinc Metal Anode. Advanced Functional Materials. 30 (2020) 2000599. (ESI高被引论文、热点论文) 67.     Jiang Zhou,* et. al. Anode Materials for Aqueous Zinc Ion Batteries: Mechanisms, Properties, and Perspectives. ACS Nano 2020, 14, 16321-16347. (ESI高被引论文、热点论文) 68.     Jiang Zhou,* et. al. Enlarged interlayer spacing and enhanced capacitive behavior of a carbon anode for superior potassium storage. Science Bulletin. 65 (2020) 2014–2021. 69.     Jiang Zhou,* et. al. Ion-Confinement Effect Enabled by Gel Electrolyte for Highly Reversible Dendrite-Free Zinc Metal Anode. Energy Storage Materials, 27 (2020) 109-116. (ESI高被引论文,热点论文) 70.     Jiang Zhou,* et. al. Electrochemically induced cationic defect in MnO intercalation cathode for aqueous zinc-ion battery. Energy Storage Materials, 24 (2020) 394-401. (ESI高被引论文,热点论文) 71.     Jiang Zhou,* et. al. Hierarchically Structured Nitrogen-doped Carbon Microspheres for Advanced Potassium Ion Batteries. ACS Materials Letters, 2 (2020) 853-860. 72.     Jiang Zhou,* et. al. Suppressing Manganese Dissolution in Potassium Manganate with Rich Oxygen Defects Engaged High-Energy-Density and Durable Aqueous Zinc-Ion Battery. Advanced Functional Materials. 29 (2019) 1808375. (ESI高被引论文,热点论文) 73.     Jiang Zhou,* et. al. Metal Organic Framework-Templated Synthesis of Bimetallic Selenides with Rich Phase Boundaries for Sodium-Ion Storage and Oxygen Evolution Reaction. ACS Nano. 13 (2019) 5635. (ESI高被引论文,热点论文) 74.     Jiang Zhou,* et. al. Simultaneous cationic and anionic redox reaction mechanism enabling high-rate long-life aqueous zinc-ion battery. Advanced Functional Materials. 29 (2019) 1905267. 75.     Jiang Zhou,* et. al. Cathode interfacial layer formation via in-situ electrochemically charging in aqueous Zinc-ion battery. ACS Nano. 13 (2019) 13456-13464. 76.     Jiang Zhou,* et. al. Transition Metal Ion-Preintercalated V2O5 as High-Performance Aqueous Zinc-Ion Battery Cathode with Broad Temperature Adaptability. Nano Energy. 61 (2019) 617-625. (ESI高被引论文) 77.     Jiang Zhou,* et. al. Nanoflake-Constructed Porous Na3V2(PO4)3/C Hierarchical Microspheres as a Bicontinuous Cathode for Sodium-Ion Batteries Applications. Nano Energy. 60 (2019) 312-323. 78.     Jiang Zhou,* et. al. Observation of Combination Displacement/Intercalation Reaction in Aqueous Zinc-ion Battery." Energy Storage Materials, 18 (2019) 10-14. (ESI高被引论文) 79.     Jiang Zhou,* et. al. Ultra-high Mass Loading Cathode for Aqueous Zinc-ion battery Based on Graphene Wrapped Aluminium Vanadate Nanobelts. Nano-Micro Letters, 11 (2019) 69. (ESI高被引论文) 80.     Jiang Zhou,* et. al. V2O5 nanospheres with mixed vanadium valences as high electrochemically active aqueous zinc-ion battery cathode. Nano-Micro Letters, 11 (2019) 25. (ESI高被引论文,热点论文) 81.     Jiang Zhou,* et. al. Recent Advances in Aqueous Zinc-ion Batteries. ACS Energy Lett. 3 (2018) 2480-2501. (ESI高被引论文,热点论文) 82.     Jiang Zhou,* et. al. Mechanistic Insights of Zn2+ Storage in Sodium Vanadates. Advanced Energy Materials. 8 (2018) 1801819. (ESI高被引论文) 83.     Jiang Zhou,* et. al. Observation of pseudocapacitive effect and fast ion diffusion in bimetallic sulfides as an advanced sodium ion battery anode. Advanced Energy Materials. 8 (2018) 1703155. (ESI高被引论文,热点论文) 84.     Jiang Zhou,* et. al. Potassium vanadates with stable structure and fast ion diffusion channel as cathode for rechargeable aqueous zinc-ion batteries. Nano Energy, 51 (2018),579-587. (ESI高被引论文,热点论文) 85.     Jiang Zhou,* et. al. Anqiang Pan, and Shuquan Liang*. Caging Na3V2(PO4)2F3 microcubes in cross-linked graphene enabling ultra-fast sodium storage and long-term cycling. Advanced Science, 5 (2018) 1800680. (ESI高被引论文) 86.     Jiang Zhou,* et. al. Pilotaxitic Na1.1V3O7.9 Nanoribbons/Graphene as High-Performance Sodium ion Battery and Aqueous Zinc ion Battery Cathode. Energy Storage Materials 13 (2018) 168-174. ESI高被引论文) 教育经历 [1]   2007.9-2011.6 中南大学  |  材料科学与工程  |  学士学位  |  本科学历 [2]   2011.9-2015.12 中南大学  |  材料物理与化学  |  博士学位  |  博士学历 [3]   2014.2-2015.1 新加坡南洋理工大学 博士联合培养 工作经历 [1]   2017.9-至今 中南大学  |  材料科学与工程学院  |  特聘教授 [2]   2016.5-2017.9 美国麻省理工学院  |  博士后 研究方向 [1]  锂(钠)离子电池、水系锌离子电池,超级电容器,电催化等。

杨永