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万骏,武汉纺织大学特聘教授,化学与化工学院院长助理,应化系副主任。湖北省高层次人才、武汉市青年科技计划。华中科技大学本科、直博(导师周军教授杰青、王中林院士)、博士后(导师唐江教授杰青)。国家公派新加坡南洋理工大学访问学者(导师Prof. Seok Woo Lee)。纺织新材料与先进加工全国重点实验室 徐卫林 院士团队骨干成员。以电催化与功能纤维材料为核心,聚焦纤维降解、航天热管理及月壤相关研究,承担团队嫦娥五号月壤项目的2名执行负责人之一。主持国家自科基金、省自科基金、省教育厅、国家重点实验室、企业合作等科研项目10余项。一作及通讯作者在OneEarth、Angew. Chem. Int. Ed.等学术期刊发表论文50余篇。主编国际专著2部,授权中国发明专利4件。担任新加坡Viser材料专家委员会委员、湖北省化学化工学会委员、市重点研发项目评审专家等;Nano-MicroLetters、Research、CarbonEnergy等期刊青年编委。荣获Young Scientist Award、湖北省化学化工先进青年工作者、青年五四奖章、最美教师等。
个人官方主页:https://fzcljs.wtu.edu.cn/info/1095/1751.htm
学习经历:
2012.9-2017.6
华中科技大学 武汉光电国家研究中心 工学博士(物理电子学)
2008.9-2012.6
华中科技大学 化学与化工学院 工学学士(化学工程与工艺)
工作经历:
2022.3-至今
武汉纺织大学 特聘教授
2023.1-2024.1
新加坡南洋理工大学 访问学者
2020.12-2022.3
武汉纺织大学 副教授
2019.9-2020.12
武汉纺织大学 讲师
2017.9-2019.9
华中科技大学 博士后(光学工程)
任职经历:
2024.3-至今
武汉纺织大学化工学院 科研助理
2022.6-至今
武汉纺织大学化工学院 副系主任
2020.9-至今
武汉纺织大学化工学院 党支部组织委员
2012.7-2014.7
武汉光电国家研究中心 党支部副书记
2011.9-2012.6
华中科技大学化工学院 毕业辅导员(兼任)
近五年,以第一/通讯作者在One Earth、Angewandte Chemie International Edition、Nano-Micro Letters、Applied Catalysis B: Environment and Energy、InfoMat、Applied Physics Reviews、Journal of Energy Chemistry、Chinese Journal of Catalysis、Green Chemistry等国际权威期刊发表学术论文45篇(其中2026年已发表7篇;2025年17篇;2024年10篇;2022-2023年11篇)。论文列表如下:
u 2026年(7篇)
[1] HanyuanZhang, Zhenhui Huang, Changyuan Chen, Yi Long*, Weilin Xu, Zhengui Zhou*, Jun Wan*, Mid-Infrared Transparent Materials: fromMechanisms to Cutting-Edge Applications. Nano-Micro Letters 2026, n/a. DOI :10.1007/s40820-026-02113-y. (IF=36.3)
[2] Mingjie Wang,Yutong Feng, Jiao Dai, Bohao Chang, Linai Zhou, Weilin Xu, Yujie Ma*, Jun Wan*, Phase Diversity DrivenMechanistic Landscapes for Nitrate to Ammonia Electrosynthesis. Journal of HazardousMaterials 2026, 505,141470 (IF=13.3)
[3] Mingjie Wang,Hanyuan Zhang, Jiao Dai, Bohao Chang, Kaisi Liu, Weilin Xu, Yujie Ma, Jun Wan*, Non-Equilibrium Constructionof Layered Ruddlesden–Popper La2NiO4 Porous Nanosheetsfor Efficient Urea Electrooxidation. Carbon Neutralization 2026, 5, e70132.(IF=12)
[4] Qi Liu,Ziyuan Zhu, Hanyuan Zhang, Linai Zhou, Hanqi Su, Weilin Xu, Hui Wang, Jun Wan*, Advanced Warming Textiles forPersonalized Thermal Management through Radiative, Insulating, andElectrothermal Strategies. Materials Today Energy 2026, 56, 102192 (IF=8.6)
[5] Zhou Linai,Feng Jiamu, Zhu Kean, Gao Lingfeng, Xu Weilin, Wang Hui, Wan Jun*, Crystallographic Symmetry-Governed Oxygen-DefectChemistry in Perovskite Oxides for Electrocatalytic Water Splitting. MaterialsMatter 2026, 1, 1.
[6] Tianqi Guan,Hanyuan Zhang, ZiYuan Zhu, Yumei Xiang, Weilin Xu, Hui Wang, Jun Wan*, Jing Tang*, Emergent Phase Architecturesin 2D Materials for Multimodal Cancer Therapy. Materials Today Chemistry2026, 52, 103413 (IF=6.7)
[7] Tianqi Ma,Mincan Yang, Jiamu Feng, Linai Zhou, Weilin Xu, Eryang Mao*, Jun Wan*, Spinel Oxide CrystallographyGoverning Lattice-Coupled Water-Redox Electrocatalysis. Smart Mater Devices 2026,2, n/a.
u 2025年(17篇)
[1] Zhiao Wu;Miao Fan; Huiyu Jiang; Jiao Dai; Kaisi Liu; Rong Hu; Shutong Qin; Weilin Xu;Yonggang Yao*; Jun Wan*, Harnessing theUnconventional Cubic Phase in 2D LaNiO3 Perovskite for HighlyEfficient Urea Oxidation. Angewandte Chemie International Edition 2025, 64, e202413932. DOI: 10.1002/anie.202413932.(IF=16.9)
[2] Xiaorui Ma;Zhiao Wu; Haoran Tian; Guangyu Fang; Jiao Dai; Tianpeng Ding; Weilin Xu; HuanyuJin*; Xu Xiao*; Jun Wan*, Durable Coaxial Fiber-Based Underwater StrainSensor with Reversible Dry-Wet Transition. InfoMat 2025, e70030. DOI: 10.1002/inf2.70030. (IF=22.7)
[3] Miao Fan;Haoran Tian; Zhiao Wu; Jiao Dai; Xiaorui Ma; Yongfei You; Jingru Huang; YutongFeng; Wanting Ding; Huiyu Jiang; Weilin Xu; Huanyu Jin*; Jun Wan*, Microwave Shock Synthesis of Porous 2D NonlayeredTransition Metal Carbides for Efficient Hydrogen Evolution. SusMat2025, e252. DOI: 10.1002/sus2.252.(IF=21.3)
[4] Jiao Dai;Jinglin Xian; Kaisi Liu; Zhiao Wu; Miao Fan; Shutong Qin; Huiyu Jiang; WeilinXu; Huanyu Jin*, Jun Wan*, UnconventionalMetastable Cubic 2D LaMnO3 for Efficient Alkaline Seawater OxygenEvolution. ChineseJournal of Catalysis 2025,74, 228. (IF=17.7)
[5] Liyun Wei;Jiao Dai; Shutong Qin; Mingjie Wang; Ziyuan Zhu; Weilin Xu; Kaisi Liu; Jun Wan*, Two-Dimensional materials forhigh-current-density seawater electrolysis. Green Chemistry 2025, DOI: 10.1039/D5GC01687H. (IF=9.2)
[6] Tianqi Guan,Mingjie Wang, Hanyuan Zhang, Shutong Qin, Yutong Feng, Jiao Dai, Weilin Xu, Jun Wan*, Huanyu Jin*, Engineering 2DMaterials for High-Current-Density Electrocatalytic Water Splitting. Rare Metals2025, n/a, e70070. (IF=11.0)
[7] Guangyu Fang;Xiaorui Ma; Rong Hu; Jiao Dai; Haoran Tian; Lin Li*; Weilin Xu; Yonggang Yao*, Jun Wan*, Horizontally Oriented2D Skin Structures on Fiber Interface for Long–Life Flexible Energy StorageDevices. Chemical Engineering Journal 2025,161557. DOI: 10.1016/j.cej.2025.161557.(IF=13.4)
[8] Ruiyao Xu,Ziyuan Zhu, Hanyuan Zhang, Wenhui Fan, Tianqi Guan, Yuqi Wei, Weilin Xu, BinHu*, Jun Wan*, SynergisticMaterial–Structure Engineering for Mid-Infrared Thermal Management in Textiles.Small2025, 21, e09257. (IF=12.1)
[9] Jingru Huang;Haoran Tian; Hanyuan Zhang; Zhenhui Huang; Yi Long; Weilin Xu; Zhengui Zhou*; Jun Wan*, Engineering Materials andStructural Paradigms for mid-infrared thermal management. Materials Today Energy 2025, 101944. DOI:10.1016/j.mtener.2025.101944. (IF=8.6)
[10] Shutong Qin;Jiao Dai; Haoran Tian; Hanyuan Zhang; Jingru Huang; Tianqi Guan; Weilin Xu; Jun Wan*, 3D Printing Driving Innovations in ExtremeLow–Temperature Energy Storage. Virtual and Physical Prototyping 2025, 20, e2459798. DOI:10.1080/17452759.2025.2459798. (IF=10.2)
[11] Shutong Qin;Jiao Dai; Mingjie Wang; Hanyuan Zhang; Shihao Cheng; Weilin Xu; Jun Wan*; Huanyu Jin*, Unleashingthe Potential of Metastable Materials in Electrocatalytic Water Splitting. ACS MaterialsLetters 2025, 7, 524.DOI: 10.1021/acsmaterialslett.4c02197. (IF=9.9)
[12] Jiao Dai;Mingjie Wang; Haoran Tian; Wenhui Fan; Kaisi Liu; Weilin Xu; Huiyu Jiang*;Huanyu Jin*; Jun Wan*, MicrowaveShock–Driven Thermal Engineering of Unconventional Cubic 2D LaMnO3for Efficient Oxygen Evolution. Journal of Materials Chemistry A2025, 13, 31002. DOI:10.1039/D5TA01034A (IF=10.8)
[13] Yutong Feng;Jiao Dai; Mingjie Wang; Wanting Ding; Hanyuan Zhang; Weilin Xu; Jun Wan*, Unraveling Metastable Perovskite Oxides Insightsfrom Structural Engineering to Synthesis Paradigms. Microstructures 2025, 5. DOI:10.20517/microstructures.2024.115. (IF=9.0)
[14] Jingru Huang;Haoran Tian; Hanyuan Zhang; Ziyuan Zhu; Shutong Qin; Weilin Xu; Jun Wan*, Two-dimensional materials forenhanced mid-infrared thermal management. 2D Materials 2025, 12, 032003. (IF=4.5)
[15] Shihao Cheng,Hanyuan Zhang, Ziyuan Zhu, Shutong Qin, Linai Zhou, Yuqi Wei, Weilin Xu, Jun Wan*, Bin Hu*, Opaque, Transparent,and Colored Low-Emissivity Materials for Mid-Infrared Thermal Management. Journal of Materials Chemistry A 2025, 13, 38585. (IF=10.8)
[16] Yutong Feng,Mingjie Wang, Hanyuan Zhang, Shutong Qin, Tianqi Guan, Bohao Chang, Weilin Xu,Yujie Ma*, Jun Wan*, EngineeringElectrocatalytic Structures through Molten Salt-Mediated Mechanistic Control. EcoEnergy2025, 3, e70022.
[17] Haoran Tian,Hanyuan Zhang, Ziyuan Zhu, Jiao Dai, Shutong Qin, Ruiyao Xu, Weilin Xu, Jun Wan*, Near-Unity Solar Reflectanceand Mid-Infrared Transparency Via Microwave-Engineered 2d Y2o3 for PassiveRadiative Cooling. Journal of Materials Chemistry A 2025, 13, 39330. (IF=10.8)
u 2024年(10篇)
[1] Minghui Ning#;Sangni Wang#; Jun Wan#;Zichao Xi; Qiao Chen; Huimin Yu; Yuanmiao Sun; Hui Li; Tianyi Ma*; Huanyu Jin*,Dynamic Active Sites in Electrocatalysis. Angewandte Chemie International Edition 2024,63, e202415794. DOI: 10.1002/anie.202415794. (IF=16.9)
[2] Jinglin Xian;Huiyu Jiang; Zhiao Wu; Huimin Yu; Kaisi Liu; Miao Fan; Rong Hu; Guangyu Fang;Liyun Wei; Jingyan Cai; Weilin Xu; Huanyu Jin*; Jun Wan*, Microwave Shock Motivating the Sr Substitution of2D Porous GdFeO3 Perovskite for Highly Active Oxygen Evolution. Journal ofEnergy Chemistry 2024, 88, 232. DOI:10.1016/j.jechem.2023.09.016. (IF=14.9)
[3] Jun Wan; Zhiao Wu; Guangyu Fang; Jinglin Xian; Jiao Dai; Jiayue Guo; QingxiangLi; Yongfei You; Kaisi Liu; Huimin Yu; Weilin Xu; Huiyu Jiang*; Minggui Xia*,Huanyu Jin*, Microwave–AssistedExploration of the Electron Configuration–Dependent Electrocatalytic UreaOxidation Activity of 2D Porous NiCo2O4 Spinel. Journal ofEnergy Chemistry 2024,91, 226. DOI: 10.1016/j.jechem.2023.12.017.(IF=14.9)
[4] Jingyan Cai;Zhiao Wu; Sangni Wang; Jiayue Guo; Miao Fan; Weilin Xu; Huanyu Jin*; Jun Wan*, Exploring Advanced Microwave Strategy for theSynthesis of Two–Dimensional Energy Materials. Applied Physics Reviews 2024. DOI: 10.1063/5.0231081. (IF=11.9)
[5] Jun Wan; Guangyu Fang; Shiyun Mi; Huimin Yu; Jinglin Xian; Miao Fan; Zhiao Wu;Liyun Wei; Xiaorui Ma; Jingyan Cai; Yongfei You; Dawei Wang; Weilin Xu; HuiyuJiang*; Huanyu Jin*, Metastable 2D Amorphous Nb2O5 for AqueousSupercapacitor Energy Storage. Chemical Engineering Journal 2024, 488, 150912. DOI: 10.1016/j.cej.2024.150912.(IF=13.4)
[6] Kaisi Liu;Tongtong Liu; Xinyi Wu; Jiao Dai; Qingjun Chen; Jun Wan*; Lei Liu*, Frustrated Lewis Pair Chemistry in 2D CeO2for Efficient Alkaline Hydrogen Evolution. Journal of Materials Chemistry A 2024, 12, 28843. DOI: 10.1039/D4TA06191H.(IF=10.8)
[7] Zhiao Wu;Jinglin Xian; Jiao Dai; Guangyu Fang; Miao Fan; Haoran Tian; Jiayue Guo;Zhenhui Huang; Huiyu Jiang; Weilin Xu; JunWan*, Microwave–PulseSynthesis of Tunable 2D Porous Nickel–Enriched LaMnxNi1−xO3Solid Solution for Efficient Electrocatalytic Urea Oxidation. Journal ofMaterials Chemistry A 2024,12, 7047. DOI: 10.1039/D4TA00235K. (IF=10.8)
[8] Qingxiang Li;Guangyu Fang; Zhiao Wu; Jiayue Guo; Yongfei You; Huanyu Jin*; Jun Wan*, Advanced Microwave Strategies FacilitateStructural Engineering for Efficient Electrocatalysis. ChemSusChem 2024, 17, e202301874. DOI: 10.1002/cssc.202301874.(IF=7.5)
[9] Miao Fan;Jiayue Guo; Guangyu Fang; Haoran Tian; Yongfei You; Zhenhui Huang; JingruHuang; Huiyu Jiang; Weilin Xu; Jun Wan*, Microwave–PulseAssisted Synthesis of Tunable Ternary–Doped 2D Molybdenum Carbide for EfficientHydrogen Evolution. Chemical Synthesis 2024, 4, 36. DOI: 10.20517/cs.2023.72.
[10] Yongfei You; Guangyu Fang; Miao Fan; Jiayue Guo;Qingxiang Li; Jun Wan*, LeveragingNovel Microwave Techniques for Tailoring the Microstructure of Energy StorageMaterials. Microstructures2024, 4, 2024035. DOI:10.20517/microstructures.2023.86. (IF=9.0)
u 2022-2023年(11篇)
[1] Huimin Yu; Jun Wan*; Michael Goodsite; HuanyuJin*, AdvancingDirect Seawater Electrocatalysis for Green and Affordable Hydrogen. One Earth 2023, 6, 267. DOI: 10.1016/j.oneear.2023.02.003. (IF=15.3)
[2] Rong Hu;Huiyu Jiang; Jinglin Xian; Shiyun Mi; Liyun Wei; Guangyu Fang; Jiayue Guo; SiqiXu; Ziyang Liu; Huanyu Jin*; Weilin Xu; JunWan*, Microwave-Pulse Sugar-Blowing Assisted Synthesis of 2D TransitionMetal Carbides for Sustainable Hydrogen Evolution. Applied Catalysis B: EnvironmentalEnergy 2022, 317, 121728. (IF=21.1)
[3] Huiyu Jiang;Jinglin Xian; Rong Hu; Shiyun Mi; Liyun Wei; Guangyu Fang; Zhiao Wu; Siqi Xu;Mingzhao Fan; Kaisi Liu; Huimin Yu*; Weilin Xu; Jun Wan*, Microwave Discharge for Rapid Introduction ofBimetallic–Synergistic Configuration to Conductive Catecholate toward Long–TermSupercapacitor. Chemical Engineering Journal 2023, 455, 140804. DOI: 10.1016/j.cej.2022.140804.(IF=13.4)
[4] Guangyu Fang;Kaisi Liu; Miao Fan; Jinglin Xian; Zhiao Wu; Liyun Wei; Haoran Tian; HuiyuJiang; Weilin Xu; Huanyu Jin*; Jun Wan*, Unveiling theElectron Configuration–Dependent Oxygen Evolution Activity of 2D porousSr–substituted LaFeO3 Perovskite through Microwave Shock. CarbonNeutralization 2023,2, 709. DOI: 10.1002/cnl2.94. (IF=12.0)
[5] Rong Hu;Liyun Wei; Jinglin Xian; Guangyu Fang; Zhiao Wu; Miao Fan; Jiayue Guo;Qingxiang Li; Kaisi Liu; Huiyu Jiang; Weilin Xu; Jun Wan*; Yonggang Yao*, Microwave Shock Process for Rapid Synthesis of 2DPorous La0.2Sr0.8CoO3 Perovskite as anEfficient Oxygen Evolution Reaction Catalyst. Acta Physico–Chimica Sinica2023, 39, 2212025. DOI: 10.3866/pku.whxb202212025. (IF=13.5)
[6] Dazhi Yao; Yanzhao Zhang; Shilin Zhang; Jun Wan*;Huimin Yu*; Huanyu Jin*, Hybrid Water Electrolysis withIntegrated and Cascading Reactions using Two–Dimensional Electrocatalysts. Journal ofMaterials Chemistry A 2023, 11, 16433. DOI: 10.1039/D3TA01931D. (IF=10.8)
[7] Jun Wan; Rong Hu; Junfeng Li; Shiyun Mi; Jinglin Xian; Zhiheng Xiao; Ziyang Liu;Aojie Mei; Siqi Xu; Mingzhao Fan; Huiyu Jiang*; Qian Zhang*; Huihong Liu*;Weilin Xu, A Universal Construction of Robust Interface Between 2D ConductivePolymer and Cellulose for Textile Supercapacitor. Carbohydrate Polymers 2022, 284, 119230. (IF=10.7)
[8] Jun Wan; Guoqun Zhang; Hongrun Jin; Jiabin Wu; Nian Zhang; Bin Yao; Kaisi Liu;Meilin Liu; Tonghuan Liu*; Liang Huang*, Microwave-Assisted Synthesis ofWell-Defined Nitrogen Doping Configuration with High Centrality in Carbon toIdentify the Active Sites for Electrochemical Hydrogen Peroxide Production. Carbon2022, 191, 340. (IF=10.5)
[9] Bo Wang; SiminDai; Zehao Zhu; Lin Hu; Zhen Su; Yingzhi Jin; Liukang Xiong; Jiasong Gao; Jun Wan*; Zaifang Li*; Liang Huang*, Atwo-dimensional conductive polymer/V2O5 composite withrapid zinc-ion storage kinetics for high-power aqueous zinc-ion batteries. Nanoscale2022, 14, 12013. (IF=5.8)
[10] Huiyu Jiang;Zeyu Ouyang; Rong Hu; Jun Wan*;Junjiang Zhu*, Self-cleaning Finishing of Cotton Fabric with TiO2/Ag2S/rGOComposite. Fibersand Polymers 2022,23, 254. (IF=2.2)
[11] Rong Hu;Huiyu Jiang; Jinglin Xian; Shiyun Mi; Liyun Wei; Guangyu Fang; Jiayue Guo; SiqiXu; Ziyang Liu; Huanyu Jin; Huimin Yu*; JunWan*, Pearson's Principle-Inspired Robust 2D Amorphous Ni-Fe-Co TernaryHydroxides on Carbon Textile for High-Performance Electrocatalytic WaterSplitting. Nanomaterials2022, 12, 2416. (IF=4.4)
【1】 研究生获优秀毕业生代表1名(每届全校1名)。
【2】 研究生获国家奖学金5项,优秀研究生多项。
【3】 研究生及本科生获其它创新竞赛项目及奖项20余项。
【4】 每届硕士均有推免至985高校读博。
【5】 多名团队本科生一作发表论文,并赴985及海外深造。
热爱祖国,鼓励学生积极入党。目标培养学生高素质科研能力,指导读研读博深造。团队氛围团结,阳光快乐,勇敢自信,积极向上。团队成员高自由度支配时间,导师一对一因材施教,优秀师兄师姐带队。团队定期开展组会与组织文体活动。
团队寄语:当白纸启墨,绘未来芳华。
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