发布日期:2024-04-27 浏览次数:次
个人简介 夏阳,教授,博士生导师,新能源材料与技术研究所书记,浙江省废电池回收利用协会常务理事/专家委员会主任委员、IEEE PES储能技术委员会(中国)理事、浙江省材料研究学会理事、杭州市硅酸盐学会理事、湖州市智能制造协会理事、中国化学会会员,入选浙江省新材料产业智库首批专家和浙江省/杭州市经济和信息化局专家,担任国家自然科学基金和广东省自然科学基金评审专家。长期从事低维度多孔复相分级结构功能材料的基础理论和应用研究,擅长利用生物模板法、生物代谢技术和超临界流体技术合成各类高性能功能材料,在先进能源材料与器件的结构设计、绿色合成、微观表征和电化学机理研究方面具有扎实的理论基础和丰富的研究经验。主持承担国家自然科学基金3项、浙江省自然科学基金/科技计划项目4项、中国博士后基金2项及企业合作项目等10多项课题,发表SCI论文220余篇,其中60余篇以第一/通讯作者发表在Adv. Energy Mater.、Adv. Funct. Mater.、ACS Nano、InfoMat、Small、J. Mater. Chem. A等国际重要学术期刊,常年入选ESI高被引论文10篇次,总引次数超过1.2万次,h因子56;作为主要完成人获2018年浙江省自然科学奖二等奖和2023年浙江省知识产权奖三等奖1项,获授权发明专利80项;指导研究生参加第七届浙江省国际“互联网+”大学生创新创业大赛获得金奖等10余项。工作经历:2024/01-至今, 浙江工业大学,材料学院,教授2016/12-2023/12,浙江工业大学,材料学院,副教授2016/12-2017/12,美国得克萨斯大学奥斯汀分校,访问学者(合作导师:Prof. A. Manthiram)2014/01-2016/12,浙江工业大学,材料学院,校聘副教授2013/07-2013/12,浙江工业大学,化材学院,讲师 教学与课程 讲授课程:1. 《环境材料》(本科生课程)2. 《材料专业英语与文献检索》(本科生课程)3. 《材料结构与性能》(研究生课程)4. 《Frontiers in Materials Science & Engineering》(研究生课程) 育人成果 教改论文[1] 夏阳,张文魁,梁初,黄辉,甘永平,张俊. 任务驱动法对提高大化类专业研究生论文写作能力的实践与研究[J],科教文汇,2020(9):62-64。[2] 甘永平,张文魁,夏阳,张俊,黄辉. 材料工程专业硕士培养及能源材料课程CDIO教学模式探讨与实践[J]. 当代化工研究,2022(8):133-135。[3] 梁初,郑泽文,李宜逊,夏阳,陶新永. 任务驱动教学法在《专业英语与文献检索》课程的实践与研究[J]. 教育教学论坛,2019(17):150-152。教材与专著[1] 新型电池材料与技术(第一章:锂离子电池),化学工业出版社(ISBN:978-7-122-40477-0),2022教学竞赛获奖[1] 浙江工业大学第三届校课程思政微课专项赛一等奖[2] 材料学院首届青年教师教学大比武,最佳课程思政奖和三等奖指导学生竞赛获奖(第一指导教师)[1] 第七届浙江省国际“互联网+”大学生创新创业大赛获金奖[2] 第三届浙江省大学生新材料创新设计大赛获一等奖[3] 浙江工业大学第三届“晶通杯”新材料创新创意设计大赛获一等奖[4] 第十三届“工贸85·运河杯”浙江工业大学创业大赛获金奖[5] 浙江工业大学第九届大学生节能减排社会实践与科技竞赛获一等奖[6] 浙江工业大学第十一届大学生节能减排社会实践与科技竞赛获一等奖[7] 第十四届浙江工业大学“互联网+”大学生创新创业大赛获铜奖[8] 浙江工业大学第十届大学生节能减排社会实践与科技竞赛获二等奖[9] 第七届中国杭州大学生创业大赛获“四百强项目”[10] 2021浙江省高校大学生创业训练营中获优胜奖 科研项目 1. 国家自然科学基金面上项目,高镍层状正极材料的体/表界面结构调控及稳定化机理研究,22279116,2023.01-2026.12,项目负责人2. 国家自然科学基金联合(重点)项目,硫基高性能固态锂电池的体系设计和界面调控,U20A20253-2,2021.01-2024.12,分项负责人3. 国家自然科学基金青年基金项目,硅藻基多孔SiOx/C-S复合正极材料可控制备及其储能机理研究,21403196,2015/01-2017/12,项目负责人4. 浙江省尖兵领雁计划项目,高性能18650动力电池全生命周期设计及低碳智造关键技术研发和产业化,2022C01173,2021.01-2022.12,子课题负责人5. 浙江省重点研发计划项目,高镍三元正极材料表面稳定化关键技术、新工艺研究及产业化,2020C01130,2019.07-2022.07,子课题负责人6. 浙江省自然科学基金一般项目,细菌代谢合成硒纳米材料及其储能机理研究,LY21E020005,2021.01-2023.12,项目负责人7. 浙江省自然科学基金一般项目,超临界辅助生物模板法可控合成SiOC负极材料及其储锂机理研究,LY17E020010,2017.01-2019.12,项目负责人8. 浙江省科技计划公益项目,新型高效污水脱汞材料关键制备技术研发,2016C31012,2016.03-2018.03,项目负责人9. 中国博士后科学基金第13批特别资助,超临界CO2流体技术对高镍正极材料表面结构调控及稳定化机理研究,2020T130597,2020.03-2021.12,项目负责人10. 中国博士后科学基金第67批面上资助,生物代谢制备纳米电极材料及其储锂性能研究,2020M671785,2020.03-2021.12,项目负责人11. 企业合作项目:浙江美都海创锂电科技有限公司,高镍正极材料新工艺开发,项目负责人12. 企业合作项目:浙江德懿新能源科技有限公司,年产1.2万吨高镍前驱体产业化技术开发,项目负责人13. 企业合作项目:宇恒电池股份有限公司,大容量磷酸铁锂储能用电池产业化关键技术开发,项目负责人14. 企业合作项目:浙江海创锂电科技有限公司,高热稳定性高镍正极材料研发,项目负责人15. 企业合作项目:山东华纳新能源有限公司,18650型圆柱钠离子电池关键制造技术开发,项目负责人16. 企业合作项目:西安热工研究院有限公司,电加热材料测试,项目负责人17. 企业合作项目:浙江绍兴苏泊尔生活电器有限公司,碳基电热膜样品试制,项目负责人18. 教学改革项目:浙江工业大学,任务驱动法对提高大化类专业研究生论文写作能力的实践与研究,2019101,2019.10-2021.12,项目负责人19. 教学改革项目:浙江工业大学,基于团队合作的任务驱动案例探讨教学模式在环境材料课堂教学中的探索和实践,JG2022018,2022.09-2024.08,项目负责人 科研成果 近期论文(第一/通讯作者)[35] C.W. Lu, R.Y. Fang, K. Wang, Z. Xiao, G.G. Kumar, Y.P. Gan, X.P. He, H. Huang, W.K. Zhang, Y. Xia*, Supercritical CO2 Synthesis of Freestanding Se1-xSx Foamy Cathodes for High-Performance Li-Se1-xSx Battery, Front. Chem., 2021, 9: 738977.[34] C.W. Lu, W.K. Zhang, R.Y. Fang, Z. Xiao, H. Huang, Y.P. Gan, J. Zhang, X.P. He, C. Liang, D.M. Zhu, Y. Xia*, Facile and efficient synthesis of Li2Se Particles towards high-areal capacity Li2Se cathode for advanced Li-Se battery, Sustain. Mater. Techno., 2021, 29: e00288.[33] Y. Xia, P. Cai, Y.N. Liu, J. Zhu, R. Guo, W.K. Zhang, Y.P. Gan, H. Huang, J. Zhang, C. Liang, X.P. He, Z. Xiao*, A Low-Cost and High-Efficiency Electrothermal Composite Film Composed of Hybrid Conductivity Fillers and Polymer Blends Matrix for High-Performance Plate Heater, J. Electron. Mater., 2021, 50: 3084-3094.[32] Y. Xia, L.Y. Yu, C.W. Lu, J. Zhu, Z. Xiao*, J. Zhang, C. Liang, H. Huang, Y.P. Gan, W.K. Zhang*, Passion fruit-like structure endows Li3V2(PO4)3@C/CNT composite with superior cyclic stability and rate performance, J. Alloy. Comp., 2021, 859: 157806.[31] Y. Xia, Q. Ren, C.W. Lu, J. Zhu, J. Zhang, C. Liang, H. Huang, Y.P. Gan, X.P. He, D.M. Zhu, Z. Xiao*, W.K. Zhang*, Graphene/TiO2 decorated N-doped carbon foam as 3D porous current collector for high loading sulfur cathode, Mater. Res. Bull., 2021, 135: 111129.[30] Z. Xiao, Y. Li, W.K. Zhang, H. Huang, Y.P. Gan, J. Zhang, C. Liang, Q.Z. Mao, P. Liao, Y.X. Jin*, Y. Xia*, Empowering polypropylene separator with enhanced polysulfide adsorption and reutilization ability for high-performance Li-S batteries, Mater. Res. Bull., 2021, 134: 111108.[29] Y.Y. Han, B. Liu, Z. Xiao, W.K. Zhang, X.L. Wang, G.X. Pan, Y. Xia*, X.H. Xia*, J.P. Tu, Interface issues of lithium metal anode for high-energy batteries: Challenges, strategies, and perspectives, InfoMat, 2021, 3: 155-174.[28] A.Q. Chen, K. Wang, J.J. Li, Q.Z. Mao, Z. Xiao, D.M. Zhu, G.G. Wang, P. Liao, J.R. He*, Y. You*, Y. Xia*, The Formation, Detriment and Solution of Residual Lithium Compounds on Ni-Rich Layered Oxides in Lithium-Ion Batteries, Front. Energy Res., 2020, 8: 593009.[27] J.J. Li, Z. Xiao, A.Q. Chen, W.K. Zhang, D.M. Zhu, Y.X. Jin, Q.Z. Mao, G.G. Wang, J.R. He*, Y. Xia*, Functionally Modified Polyolefin-Based Separators for Lithium-Sulfur Batteries: Progress and Prospects, Front. Energy Res., 2020, 8: 593640.[26] X.P. He, S. Ruan, Y. Chen, J. Zhang, C. Liang, H. Huang, Y.P. Gan, W.K. Zhang*, Y. Xia*, Rational design of highly efficient metal-polyaniline/carbon cloth catalyst towards enhanced oxygen reduction reaction, Ionics, 2020, 26: 5065-5073.[25] L. Huang, J.J. Li, B. Liu, Y.H. Li, S.H. Shen, S.J. Deng, C.W. Lu, W.K. Zhang, Y. Xia*, X.L. Wang, Q.Q. Xiong, X.H. Xia*, J.P. Tu, Electrode Design for Lithium-Sulfur Batteries: Problems and Solutions, Adv. Funct. Mater., 2020, 30: 1910375[24] R.Y. Fang, C.W. Lu, Y. Zhong, Z. Xiao, C. Liang, H. Huang, Y.P. Gan, J. Zhang, G.X. Pan, X.H. Xia*, Y. Xia*, W.K. Zhang, Puffed Rice Carbon with Coupled Sulfur and Metal Iron for High-Efficiency Mercury Removal in Aqueous Solution, Environ. Sci. Techonol., 2020, 54: 2539-2547.[23] Y. Xia, S. Y. Cai, C. W. Lu, H. Huang, Y. P. Gan, J. Zhang, C. Liang, Z. Xiao, W. K. Zhang, Rose pollens as sustainable biotemplates for porous SiOC microellipsoids with enhanced lithium storage performance, J. Alloy. Comp., 2020, 816: 152595.[22] R.Y. Fang, C.W. Lu, A.Q. Chen, K. Wang, H. Huang, Y.P. Gan, C. Liang, J. Zhang, X.Y. Tao, Y. Xia*, W.K. Zhang*, 2 D MXene-based Energy Storage Materials: Interfacial Structure Design and Functionalization, ChemSusChem, 2020, 13:1409-1419.[21] Z. Xiao, J.W. Zhang, J. Zhu, H. Xu, H.P. Wang, S.Q. Xu, Y. Xia*, Hydrothermal Synthesis and Up-conversion Luminescence of Ho3+/Yb3+ Co-doped PbTiO3, Z. Anorg. Allg. Chem., 2019, 645: 1111-1117.[20] H. Xiao, L.S. Xu, Z. Xiao, H. Huang, Y.P. Gan, G.X. Pan, X.Y. Tao, Y. Xia*, X.H. Xia*, W.K. Zhang, Biological Metabolism Synthesis of Metal Oxides Nanorods from Bacteria as a Biofactory toward High-Performance Lithium-Ion Battery Anodes, Small, 2019, 1902032.[19] Y. Xia, Y. Li, Z. Xiao, X.Z. Zhou, G.G Wang, J. Zhang, Y.P. Gan, H. Huang, C. Liang, W.K. Zhang*, β-Cyclodextrin-modified porous ceramic membrane with enhanced ionic conductivity and thermal stability for lithium-ion batteries, Ionics, DOI: 10.1007/s11581-019-03206-y.[18] V. Archana#, Y. Xia#, R. Y. Fang, G. G. Kumar*, Hierarchical CuO/NiO-Carbon Nanocomposite Derived from Metal Organic Framework on Cello Tape for the Flexible and High Performance Nonenzymatic Electrochemical Glucose Sensors, ACS Sustainable Chem. Eng., 2019, 7: 6707-6719.[17] X. P. He, Y. Xia*, C. Liang, J. Zhang, H. Huang, Y. P. Gan, C. Zhao, W. K. Zhang*, A flexible non-precious metal Fe-N/C catalyst for highly efficient oxygen reduction reaction, Nanotechnology, 2019, 30: 144001.[16] Y. Xia, C. W. Lu, R.Y. Fang, H. Huang, Y. P. Gan, C. Liang, J. Zhang, X. P. He, W. K. Zhang*, Freestanding layer-structure selenium cathodes with ultrahigh Se loading for high areal capacity Li-Se batteries, Electrochem. Commun., 2019, 99: 16-21.[15] H. Huang, C. Shi, R.Y. Fang, Y. Xia*, C. Liang, Y. P. Gan, J. Zhang, X. Y. Tao, W. K. Zhang*, Bio-templated fabrication of MnO nanoparticles in SiOC matrix with lithium storage properties, Chem. Eng. J., 2019, 359: 584-593.[14] W. Li, R.Y. Fang, Y. Xia*, W. K. Zhang, X. L. Wang, X. H. Xia*, J. P. Tu, Multiscale porous carbon nanomaterials for applications in advanced rechargeable batteries, Batteries & Supercaps, 2019, 2: 9-36.[13] Y. Xia, J. J. Li, H. J. Wang, Z. J. Ye, X. Z. Zhou, H. Huang, Y. P. Gan, C. Liang, J. Zhang, W. K. Zhang*, Synthesis and electrochemical performance of poly(vinylidene fluoride)/SiO2 hybrid membrane for lithium-ion batteries, J. Solid State Electrochem., 2019, 23: 519-527. [12] Z. Xiao, C. J. Sheng, Y. Xia*, X. J. Yu, C. Liang, H. Huang, Y. P. Gan, J. Zhang, W. K. Zhang*, Electrical heating behavior of flexible thermoplastic polyurethane/Super-P nanoparticle composite films for advanced wearable heaters, J. Ind. Eng. Chem., 2019, 71: 293-300.[11] Y. Zhong, X. H. Xia*, S. J. Deng, J. Y. Zhan, R.Y. Fang, Y. Xia*, X. L. Wang, Q. Zhang*, J. P. Tu, Popcorn inspired porous macrocellular carbon: rapid puffing fabrication from rice and its applications in lithium-sulfur batteries, Adv. Energy Mater., 2018, 8, 1701110.[10] B. Liu, R.Y. Fang, D. Xie, W. K. Zhang, H. Huang, Y. Xia*, X. L. Wang, X. H. Xia*, J. P. Tu*, Revisiting scientific issues for industrial applications of Lithium-Sulfur batteries, Energy Environ. Mater., 2018, 1: 196-208.[9] Y. Xia, H. Y. Zhong, R.Y. Fang, C. Liang, Z. Xiao*, H. Huang, Y. P. Gan, J. Zhang, X. Y. Tao, W. K. Zhang*, Biomass derived Ni(OH)2@porous carbon/sulfur composites synthesized by a novel sulfur impregnation strategy based on supercritical CO2 technology for advanced Li-S batteries, J. Power Sources, 2018, 378: 73-80.[8] R.Y. Fang, C. Liang, Y. Xia*, Z. Xiao, H. Huang, Y. P. Gan, J. Zhang, X. Y. Tao, W. K. Zhang*, Supercritical CO2 mediated incorporation of sulfur into carbon matrix as cathode materials towards high-performance lithium-sulfur batteries, J. Mater. Chem. A, 2018, 6: 212-222. [7] S. Liang #, Y. Xia #, C. Liang*, Y. P. Gan, H. Huang, J. Zhang, X. Y. Tao, W. Sun, W. Q. Han, W. K. Zhang *, A green and facile strategy for the low-temperature and rapid synthesis of Li2S@PC-CNT cathodes with high Li2S content for advanced Li-S batteries, J. Mater. Chem. A, 2018, 6: 9906-9914.[6] Y. Xia, R.Y. Fang, Z. Xiao, H. Huang, Y. P. Gan, R. J. Yan, X. H. Lu, C. Liang, J. Zhang, X. Y. Tao*, W. K. Zhang*, Confining Sulfur in N-doped porous carbon microspheres derived from microalgaes for advanced lithium-sulfur batteries, ACS Appl. Mater. Interface, 2017, 9: 23782-23791.[5] Y. Xia, H. Zhu, C. Liang, Z. Xiao, Y. P. Gan, J. Zhang, X. Y. Tao, H. Huang, W. K. Zhang*, Synthesis and electrochemical properties of LiMnPO4-modified Li[Li0.2Mn0.534Co0.133Ni0.133]O2 cathode material for Li-ion batteries, Electrochimica Acta, 2017, 235: 1-9.[4] C. Liang, L. T. Zhou, C. H. Zhou, H. Huang, S. Liang, Y. Xia*, Y. P. Gan, X. Y. Tao, J. Zhang, W. K. Zhang*, Submicron silica as high capacity lithium storage material with superior cycling performance, Mater. Res. Bull., 2017, 96: 347-353.[3] C. Liang, C. H. Zhou, Z. C. Chen, Y. P. Gan, Y. Xia*, H. Huang, X. Y. Tao, J. Zhang, W. K. Zhang*, Electrochemical lithium storage properties of desert sands, Ionics, 2017, 4: 1-7.[2] Z. Xiao*, J. W. Zhang, Y. Xia*, L. Z. Zhu, L. Lei, S. Q. Xu, Nanoplates-assembled Bi2WO6 microcoins with hierarchical porous structure as efficient visible-light-active photocatalysts, Mater. Res. Bull., 2017, 94: 322-327.[1] Y. Xia, R. Y. Fang, Z. Xiao, L. Y. Ruan, R. J. Yan, H. Huang, C. Liang, Y. P. Gan, J. Zhang, X. Y. Tao*, W. K. Zhang*, Supercritical fluid assisted biotemplating synthesis of Si-O-C microspheres from microalgae for advanced Li-ion batteries, RSC Adv., 2016, 6(74): 69764-69772.授权发明专利[1] 夏阳,张文魁,张家涛,陶新永,黄辉,甘永平,一种硫/碳复合材料及其应用,中国发明专利,ZL201210575488.1[2] 夏阳,张文魁,陶新永,黄辉,甘永平,一种球形中空多孔MnO/C复合材料及其应用,中国发明专利,ZL201210576943.X[3] 夏阳,方如意,梁初,张文魁,黄辉,陶新永,甘永平,一种磷化锂粉体的制备方法,中国发明专利,ZL201510050642.7[4] 夏阳,韩熠垚,卢成炜,张文魁,黄辉,甘永平,梁初,张俊,一种类固态电池制备方法,中国发明专利,ZL201911258960.7[5] 夏阳,陈安琪,张文魁,李姣姣,黄辉,甘永平,张俊,梁初,贺馨平,一种高安全性锂离子电池的电芯结构及其制备方法,中国发明专利,ZL201910256503.8[6] 夏阳,任强,卢成炜,张文魁,黄辉,甘永平,张俊,梁初,贺馨平,一种全木结构硫正极的制备方法及应用,中国发明专利,ZL201910299748.9[7] 夏阳,陈安琪,王坤,张文魁,吴海军,黄辉,毛秦钟,吉同棕,甘永平,张俊,梁初,一种高镍三元正极材料表面改性的方法,中国发明专利,ZL201910043577.3[8] 夏阳,方如意,卢成炜,张文魁,梁初,黄辉,甘永平,张俊,陶新永,一种过滤膜材料及其制备方法和应用,中国发明专利,ZL201710828587.9[9] 夏阳,卢成炜,方如意,张文魁,梁初,黄辉,甘永平,张俊,贺馨平,一种膜层结构预锂化硅碳负极的制造方法,中国发明专利,ZL201911258960.7[10] 夏阳,蔡鹏,张文魁,郭锐,黄辉,甘永平,张俊,梁初,贺馨平,一种用于XRD测试设备的自控升温装置,实用新型,ZL201922139548.5[11] 夏阳,蔡鹏,张文魁,郭锐,黄辉,甘永平,张俊,梁初,贺馨平,一种自控温加热容器,实用新型,ZL201922140959.6[12] 夏阳,蔡鹏,张文魁,黄辉,甘永平,梁初,张俊,贺馨平,一种高安全性复合电热膜,实用新型,ZL202022729138.9奖励及荣誉[1] 2018年浙江省自然科学二等奖 社会服务 浙江省废电池回收利用协会 常务理事和主任委员IEEE电力与能源协会中国区储能技术委员会 理事浙江省材料研究学会 理事杭州市硅酸盐协会 理事湖州市智能制造协会 理事横店东磁研究院 院长助理江苏南通市启东经济开发区管委会 副主任