||
赵世强课题组主页: http://chem.wzu.edu.cn/info/2573/38270.htm
温州大学碳能源研究团队主页: http://carbonenergygroup.wzu.edu.cn/index.htm
【研究生招生,化学、材料等相关专业学硕/专硕, Postgraduate Admissions】
本课题组2023年计划招收【化学、材料科学与工程、材料与化工、资源与环境】等相关专业硕士生2名,主要从事于高性能碱金属离子电池电极材料的设计合成、性能提升、增效机制和储能机理研究。
研究生考试、复试等的相关信息,请关注温州大学研究生招生信息网(https://yjsb.webvpn.wzu.edu.cn/zsw/)、温州大学化材学院研究生招生网(https://chem.webvpn.wzu.edu.cn/zsjy/yjszs.htm)、复试参考资料(https://chem.webvpn.wzu.edu.cn/info/1090/11381.htm)。
有意向的考生,请将简历和考研分数发送到邮箱:zhaosq@wzu.edu.cn
碳基纳米储能课题组,欢迎你的加入!!!
【个人简介, Resume】
姓名: 赵世强 政治面貌:中共党员 学位:博士 毕业学校:山东大学-化学与化工学院 专业:物理化学
职称:副教授/硕导 职务:化学系副主任/教工党支部副书记、能源化学专业负责人
办公室:温州大学南校区3C-407A
课题组:碳基纳米储能实验室 http://chem.wzu.edu.cn/info/2573/38270.htm;http://faculty.wzu.edu.cn/ZhaoSQ/zh_CN/index.htm
科研团队:温州大学碳能源团队 http://carbonenergygroup.wzu.edu.cn/index.htm
Shiqiang Zhao,Associate Professor,Physical Chemistry
College of Chemistry and Materials Engineering,Wenzhou University, Wenzhou 325035, China
E-mail: zhaosq@wzu.edu.cn
Google scholar: https://scholar.google.com/citat ... zh-CN&oi=ao
ORCiD:https://orcid.org/0000-0003-2820-9829
ResearcherID: N-1327-2015
ResearchGate: https://www.researchgate.net/profile/Shiqiang-Zhao
Group Website:http://chem.wzu.edu.cn/info/2573/38270.htm;http://faculty.wzu.edu.cn/ZhaoSQ/zh_CN/index.htm
Research Group: Carbon Energy Group http://carbonenergygroup.wzu.edu.cn/index.htm
【研究领域, Research Field】
Focuses on the research of advanced electrode materials for lithium/sodium/potassium ion batteries and their performance enhancement strategies and energy storage mechanisms, including transition metal carbonates/oxides, tin, graphene and carbon-based composites, and has published 38 SCI papers with over 2500 citations (H-index 22, i10-index 30).
碱金属离子电池高性能电极材料的设计合成、电化学性能、增效机制和储能机理研究,包括基于转化反应储能机理的过渡金属的碳酸/草酸/苯甲酸等含氧酸盐、氧/硫化合物等,基于合金化反应储能机理的锡和硅基材料等,及其与石墨烯、碳纳米管、无定形碳、功能高分子等的高匀度复合材料。至今已在Advanced Materials,Angewandte Chemie International Edition,Energy & Environmental Science,Advanced Energy Materials,ACS Energy Letters,Joule,Carbon Energy,Nano Energy等期刊上发表38篇SCI论文,含影响因子20以上论文10篇,影响因子10以上论文23篇,SCI一区论文29篇,3篇ESI高被引,6篇期刊封面,累计被引2500余次(H因子22,i10 指數30,引用过百次5篇,截至2023年2月)。参与Angewandte Chemie International Edition、ACS Nano、Energy Storage Materials、Nano Energy、Carbon Energy, Energy & Environmental Materials, Journal of Materials Chemistry A、Small、Nanoscale, Chemical Communications、ACS Applied Materials & Interfaces、Journal of Power Sources等多种SCI期刊审稿,已累计审稿SCI论文约340余篇,被期刊Journal of Materials Chemistry A(IF=14.511)评为“Outstanding Reviewer in 2019 (2019年度杰出审稿人)”。
【学术职务,Academic Participation】
(6) 大会程序委员会主席,储能材料方向,第六届“国际材料工程与先进制造技术会议 MEAMT”(中国南京,2022年9月23-25日)
Program Chair in the Energy Storage Materials issue of "2022 6th International Conference on Material Engineering and Advanced Manufacturing Technology (MEAMT 2022)" which will be held in Nanjing, China on 23-25, September 2022. https://www.meamt.org/comm.html
(5) 《Nano Research Energy》期刊青年编委
Youth Editorial Board Member of the Nano Research Energy (ISSN: 2791-0091, e-ISSN: 2790-8119). https://www.sciopen.com/journal/2791-0091?issn=2791-0091
(4) 《Frontiers in Energy Research》(IF:3. 858)期刊专刊“锂/钠离子或金属电池先进电极材料”客座编辑
Guest Editor in the Special Issue "Advanced Electrode Materials for Lithium- and Sodium-Ion/Metal Batteries“ belonging to the Frontiers in Energy Research(ISSN: 2296-598X, IF: 3.585). https://www.frontiersin.org/rese ... -ionmetal-batteries
(3) 《Frontiers in Energy Research》(IF:3. 858)期刊评审编辑(电化学能源存储与转化领域)
Review Editor in Frontiers in Energy Research (ISSN: 2296-598X, IF: 3.585)- Electrochemical Energy Conversion and Storage https://www.frontiersin.org/my-frontiers/overview; https://www.frontiersin.org/jour ... version-and-storage
(2) 《Materials》(IF:3.748)期刊专刊“锂/钠离子电池新型电极和电解液开发”客座编辑(能源材料领域)
Guest Editor in the Special Issue "Development of Novel Electrode and Electrolyte Materials for Lithium and Sodium Ion Batteries" belonging to the Energy Materials Section of Materials(ISSN 1996-1944, IF:3.748).
https://www.mdpi.com/journal/mat ... Batteries_Marerials
(1) 《Materials》(IF:3.748)期刊主题编辑(能源材料领域)
Topic Editor in the Energy Materials Section of the Editorial Board of Materials(ISSN 1996-1944, IF:3.748). https://www.mdpi.com/journal/materials/topic_editors/mater_energy
【工作/教育经历, Work/Education Experience】
2019.12 -至今,副教授/硕士生导师,温州大学,化学与材料工程学院,化学系,物理化学教学团队,碳能源科研团队。【化学系副主任、化学系教工党支部副书记、能源化学专业负责人;2021.09-2022.06,温州大学招生与就业处跟岗“三强干部”】
2017.9 - 2019.11,博士后(材料科学),佐治亚理工学院(美国),材料科学与工程学院,导师:Zhiqun Lin/林志群 教授。
2015.9 - 2017.3,联培博士(材料科学),佐治亚理工学院(美国),材料科学与工程学院,导师:Zhiqun Lin/林志群 教授。
2011.9 - 2017.6,博士(物理化学),山东大学,化学与化工学院,导师:沈强 教授。【担任院研究生会主席、研究生党支部书记,获博士生国家奖学金】
2009.7 - 2011.7,辅导员,山东大学,化学与化工学院,时任院长:钱逸泰 院士。【指导2009级本科生】
2005.9 - 2009.6,学士(应用化学),山东大学,化学与化工学院,导师:沈强 教授。【担任班长】
2019.12 – present, Associate Professor, Wenzhou University, College of Chemistry and Materials Engineering, Wenzhou, China.
2017.9 - 2019.11, Postdoctor, Georgia Institute of Technology (Advisor: Prof. Zhiquan Lin), School of Materials Science and Engineering, Atlanta, USA.
2015.9 - 2017.3, Visiting Ph. D. Student, Georgia Institute of Technology (Advisor: Prof. Zhiquan Lin), School of Materials Science and Engineering, Atlanta, USA.
2011.9 - 2015.8 and 2017.4 - 2017.6, Ph.D. in Physical Chemistry, Shandong University (Advisor: Prof. Qiang Shen), School of Chemistry and Chemical Engineering, Jinan, China.
2009.7 - 2011.7, Counselor of Undergraduate, Shandong University, School of Chemistry and Chemical Engineering, Jinan, China.
2005.9 - 2009.6, B.Sc. in Applied Chemistry, Shandong University (Advisor: Prof. Qiang Shen), School of Chemistry and Chemical Engineering, Jinan, China.
【课程教学, Teaching】
(1)本科生课程,Undergraduate Courses:
《物理化学Physical Chemistry》(化材学院本科二年级,入选2021-2022-2学期校级优质课程(学评教排名前10%));
《物理化学专论Seminar on Physical Chemistry 》(化材学院本科三年级);
《物理化学实验Physical Chemistry Experiments》(化材学院本科二年级);
《能源化学导论Introduction to Energy Chemistry 》(化材学院本科一年级);
《能源化学Energy Chemistry 》(化材学院本科三年级);
《能源与人类发展Energy and Human Development》(全校本科生公选课)。
(2)研究生课程,Postgraduate Courses:
《专业英语与论文写作 Specialized English and Paper Writing》(化材学院研究生一年级);
《高等分析化学 Advanced Analytical Chemistry》(化材学院研究生一年级)。
(3)留学生课程,International Student Courses:
《Special Field》-“Batteries”(《专业导论》-“电池”,化材学院本科留学生三年级);
《科技论文写作Scientific Paper Writing》(化材学院留学研究生一年级)。
【学生培养, Student Education】
(1)研究生,Postgraduate
【硕士研究生】
2022级,吴瑞洁、张嘉桐、张倩。
2021级,宁明月、陈托托、叶宇晨、陈浩、申家华、Imaruemidan Kehinde Tiwalade(留学生)。
2020级,谢富荣、费佳敏、李广辉。
(2)本科生,Undergraduate
【本科生毕业设计Graduation Thesis Guidance】
2023届,黄磊、金盟凯、林幸胜、吴天宇、姚昊天。
2022届,吴瑞洁(校优秀毕业论文)、李菲(校优秀毕业论文)、Mope Thipana(留学生,毕业论文成绩优秀)、Charandura Mitchelle Panashe(留学生)。
2021届,胡瑶倩、Musoka Mufunga Gloire (留学生,校优秀毕业论文)、Nnaemeka Promise Eluchie(留学生)。
【本科生科研训练Scientific Research Training】
2021级,刘威、徐鑫、王力聪、郑桢、李康玉;于禄祥、朱俊涛、朱宇辉、周佳诚、周逸鑫。
2020级,秦山、应苗、张沄沄;刘权锦、张智栋、王龙玉;袁家豪、金江龙、尤梁宇;班詹晴、徐倩倩、葛开悦。
2019级,林幸胜、黄磊、金盟凯、姚昊天。
2018级,吴瑞洁、李菲。
(3)班主任任职,Class Adviser
2020级材料系本科1班(2022年、2021年)、2020级化学类本科2班(2020秋季学期)。
(4)学生科研创新项目/课题,Student Research Innovation Project
【3】2022年度 “新湖杯”温州大学“互联网+”大学生创新创业大赛,银奖,项目 名称:绿源潜材—新型高性能锂电负极材料,负责人:张智栋,成员:张智栋、李广辉、刘权锦、王龙玉、郑文静、张洋、朱楷、吴俊杰、陈泽航、解宇萌,导师:赵世强、武晓岚。
【2】2022年度 温州大学学生科研课题(“挑战杯”专项),立项资助,项目名称:碳复合草酸锡微米管及其衍生物的设计合成及储锂/钠性能研究,负责人:刘权锦,成员:李广辉、陈托托、张智栋、王龙玉、谢富荣,导师:赵世强。https://tw.webvpn.wzu.edu.cn/nei ... ;amp;wbnewsid=15402
【1】2021年度 温州大学研究生创新基金项目,立项资助,项目名称:亚微米尺度过渡金属碳酸盐复合碳材料的设计合成及储锂性能和机理研究,负责人:费佳敏,导师:赵世强。
【科研成果, Scientific Achievements】
#共同一作 Co-first Author;*通讯作者 Corresponding Author。
【书/书章节,Book/Book Chapter】
(1) Cuiping Han#, Shiqiang Zhao#, Aurelia Wang, Huile Jin, Shun Wang, Zhong Lin Wang, Baohua Li, Junqin Li and Zhiqun Lin*. "Graphene-based Composites as Electrode Materials for Lithium Ion Batteries", as Chapter 7 in the book of "Rechargeable Lithium-Ion Batteries: Recent Progress in Electric Vehicles", 1st Edition, ISBN 9781351052702, 2020.12.18, CRC Press, Taylor & Francis Group.
https://www.routledge.com/Rechar ... /book/9781138484092;https://www.doc88.com/p-95629257248590.html
【一作/通讯作者SCI论文,First/Corresponding Author SCI Papers】
(11) Jiamin Fei, Shiqiang Zhao*, Xiaoxu Bo, Furong Xie, Guanghui Li, Ebrahim-Alkhalil M. A. Ahmed, Qingcheng Zhang, Huile Jin, Zhiqun Lin*. Nano Single Crystals Constructed Submicron MnCO3 Hollow Spindles Enabled by Solid Precursor Transition Combined Ostwald Ripening in-situ on Graphene toward Exceptional Interfacial and Capacitive Lithium Storage.
Carbon Energy (IF=21.556, SCI一区), 2023, e333, doi: 10.1002/cey2.333. 【Featured on Wiley MaterialViews】
https://onlinelibrary.wiley.com/doi/10.1002/cey2.333
(10) Furong Xie, Shiqiang Zhao*, Xiaoxu Bo*, Guanghui Li, Jiamin Fei, Ebrahim-Alkhalil M. A. Ahmed, Qingcheng Zhang, Huile Jin, Shun Wang*, Zhiqun Lin*. A Robust Solvothermal-Driven Solid-to-Solid Transition Route from Micron SnC2O4 to Tartaric Acid-Capped Nano SnO2 Anchored on Graphene for Superior Lithium and Sodium Storage. <入选期刊封面>
Journal of Materials Chemistry A (IF=14.511, SCI一区), 2023, 11, 53-67.
https://pubs.rsc.org/en/content/articlelanding/2022/TA/D2TA07435D
Journal of Materials Chemistry A <期刊背封面-Back Cover>, 2023,11, 464-464
https://pubs.rsc.org/en/content/articlelanding/2023/TA/D3TA90004E
(9) Shiqiang Zhao#, Yanjie He#, Zewei Wang, Xiaoxu Bo, Shumeng Hao, Yifei Yuan, Huile Jin, Shun Wang*, Zhiqun Lin*. Advancing performance and unfolding mechanism of lithium and sodium storage in SnO2 via precision synthesis of monodisperse PEG-ligated nanoparticles.<入选期刊封面>
Advanced Energy Materials (IF = 29.698, SCI一区), 2022, 12, 2201015.
https://onlinelibrary.wiley.com/doi/full/10.1002/aenm.202201015
Advanced Energy Materials <期刊内前封面-Inside Front Cover>, 2022, 12, 2270110.
https://onlinelibrary.wiley.com/doi/epdf/10.1002/aenm.202270110
(8) Bing He, Feifan Zhao, Ping Yi, Jing Huang, Yang Wang, Shiqiang Zhao*, Zhen Li, Yanli Zhao*, Xueqin Liu*.Spinel-Oxide-Integrated BiVO4 Photoanodes with Photothermal Effect for Efficient Solar Water Oxidation.
ACS Applied Materials & Interfaces (IF = 10.383, SCI一区), 2021, 13, 48901-48912.
https://doi.org/10.1021/acsami.1c15225
(7) Shiqiang Zhao, Christopher D. Sewell, Ruiping Liu, Songru Jia, Zewei Wang, Yanjie He, Kunjie Yuan, Huile Jin, Shun Wang*, Xueqin Liu*, Zhiqun Lin*.SnO2as advanced anode of alkali-ion batteries: inhibiting Sn coarsening by crafting robust physical barriers, void boundaries and heterophase interfaces for superior electrochemical reaction reversibility.<入选期刊封面>
Advanced Energy Materials (IF = 29.698, SCI一区), 2020, 10, 1902657. 【Featured on Wiley MaterialViews】
https://doi.org/10.1002/aenm.201902657
Advanced Energy Materials <期刊背封面-Backcover>, 2020, 10, 2070027.
https://doi.org/10.1002/aenm.202070027
(6) Shiqiang Zhao, Zewei Wang,Yanjie He, Hongrui Jiang, Yeu Wei Harn, Xueqin Liu, Chenliang Su, Huile Jin, Ying Li*, Shun Wang*, Qiang Shen*, Zhiqun Lin*. A Robust Route to Co2(OH)2CO3Ultrathin Nanosheets with Superior Lithium Storage Capability Templated by Aspartic Acid-Functionalized Graphene Oxide.
Advanced Energy Materials (IF =29.698, SCI一区), 2019, 9, 1901093. 【Featured on Wiley MaterialViews】
https://doi.org/10.1002/aenm.201901093
(5) Shiqiang Zhao, Zewei Wang, Yanjie He, Beibei Jiang, Yeuwei Harn, Xueqin Liu, Faqi Yu, Fan Feng, Qiang Shen*, Zhiqun Lin*. Interconnected Ni(HCO3)2Hollow Spheres Enabled by Self-Sacrificial Templating with Enhanced Lithium Storage Properties.
ACS Energy Letters (IF =23.991,SCI一区), 2017, 2, 111. (ESI高被引,2017-2018年)
https://doi.org/10.1021/acsenergylett.6b00582
(4) Shiqiang Zhao, Fan Feng, Faqi Yu, Qiang Shen*. Flower-to-petal structural conversion and enhanced interfacial storage capability of hydrothermally crystallized MnCO3via the in situ mixing of graphene oxide.
Journal of Materials Chemistry A (IF=14.511, SCI一区), 2015,3,24095.
https://doi.org/10.1039/C5TA07390A
(3) Shiqiang Zhao, Yuxi Wang, Rui Liu, Yue Yu, Shanshan Wei, Faqi Yu, Qiang Shen*. Full-molar-ratio synthesis and enhanced lithium storage properties of CoxFe1−xCO3composites with an integrated lattice structure and an atomic-scale synergistic effect.
Journal of Materials Chemistry A (IF=14.511, SCI一区), 2015, 3, 17181.
https://doi.org/10.1039/C5TA03785A
(2) Shiqiang Zhao, Shanshan Wei, Rui Liu, Yuxi Wang, Yue Yu, Qiang Shen*. Cobalt carbonate dumbbells for high-capacity lithium storage: A slight doping of ascorbic acid and an enhancement in electrochemical performances.
Journal of Power Sources (IF= 9.794, SCI一区), 2015, 284, 154.
https://doi.org/10.1016/j.jpowsour.2015.03.016
(1) Shiqiang Zhao, Yue Yu, Shanshan Wei, Yuxi Wang, Chenhao Zhao, Rui Liu, Qiang Shen*. Hydrothermal synthesis and potential applicability of rhombohedral siderite as a high-capacity anode material for lithium ion batteries.
Journal of Power Sources (IF= 9.794, SCI一区), 2014,253, 251.
https://doi.org/10.1016/j.jpowsour.2013.12.055
【合作SCI论文,Co-author SCI Papers】
(27) Bing He, Songru Jia, Mingyang Zhao, Yang Wang, Tao Chen, Shiqiang Zhao, Zhen Li, Zhiqun Lin*, Yanli Zhao*, Xueqin Liu*. General and Robust Photothermal‐Heating‐Enabled High‐Efficiency Photoelectrochemical Water Splitting.
Advanced Materials (IF=32.086, SCI一区), 2021, 33, 2004406.
https://doi.org/10.1002/adma.202004406
(26) Lihan Zhang, Xianying Qin*, Shiqiang Zhao, Aurelia Wang, Jun Luo, Zhong Lin Wang, Feiyu Kang, Zhiqun Lin*, Baohua Li*.Advanced Matrixes for Binder-Free Nanostructured Electrodes in Lithium-Ion Batteries.
Advanced Materials (IF=32.086,SCI一区),2020,32,1908445.
https://doi.org/10.1002/adma.201908445
(25) Xiao Li, James Iocozzia, Yihuang Chen, Shiqiang Zhao, Xun Cui, Wei Wang, Haifeng Yu, Shaoliang Lin*, Zhiqun Lin*.From Precision Synthesis of Block Copolymers to Properties and Applications of Nanoparticles.
Angewandte Chemie International Edition (IF=16.823,SCI一区), 2018,57,2046. (期刊封面)
https://doi.org/10.1002/anie.201705019
(24)Beibei Jiang, Yanjie He, Bo Li, Shiqiang Zhao, Shun Wang, Yan-Bing He, Zhiqun Lin*. Polymer-Templated Formation of Polydopamine-Coated SnO2 Nanocrystals: Anodes for Cyclable Lithium-Ion Batteries.
Angewandte Chemie International Edition (IF=16.823,SCI一区), 2017,56,1869. (ESI高被引,期刊封面)
https://doi.org/10.1002/anie.201611160
(23) Xueqin Liu, James Iocozzia, Yang Wang, Xun Cui, Yihuang Chen, Shiqiang Zhao, Zhen Li*, Zhiqun Lin*. Noble metal–metal oxide nanohybrids with tailored nanostructures for efficient solar energy conversion, photocatalysis and environmental remediation.
Energy and Environmental Science (IF=39.714, SCI一区),2017, 10, 402. (ESI高被引,期刊封面)
https://doi.org/10.1039/C6EE02265K
(22) Hao Wang, Ruiping Liu, Yutao Li, Xujie Lü, Qi Wang, Shiqiang Zhao, Kunjie Yuan, Zhiming Cui, Xiang Li, Sen Xin, Ru Zhang, Ming Lei, Zhiqun Lin*. Durable and Efficient Hollow Porous Oxide Spinel Microspheres for Oxygen Reduction.
Joule (IF=46.048,SCI一区), 2018, 2, 337.(ESI高被引)
https://doi.org/10.1016/j.joule.2017.11.016
(21) Junhong Guo#, Fan Feng#, Shiqiang Zhao, Zhenhai Shi, Rui Wang, Meng Yang, Fangfang Chen, Suli Chen*, Zi-Feng Ma*, and Tianxi Liu*. High FeLS(C) Electrochemical Activity of Iron Hexacyanoferrate Cathode Boosts Superior Sodium Ion Storage.
Carbon Energy (IF=21.556, SCI一区), 2023, e314. doi:10.1002/cey2.314.
https://onlinelibrary.wiley.com/doi/10.1002/cey2.314
(20) Songru Jia, Yang Wang, Xueqin Liu, Shiqiang Zhao, Wen Zhao, Yanqiu Huang, Zhen Li*, Zhiqun Lin*. Hierarchically porous CuO nano-labyrinths as binder-free anodes for long-life and high-rate lithium ion batteries.
Nano Energy (IF=19.069,SCI一区), 2019,59,229.
https://doi.org/10.1016/j.nanoen.2019.01.081
(19) Fan Feng, Suli Chen, Shiqiang Zhao, Wenli Zhang, Yigao Miao, Haiying Che, Xiao-Zhen Liao, Zi-Feng Ma*. Enhanced electrochemical performance of MnFe@NiFe Prussian blue analogue benefited from the inhibition of Mn ions dissolution for sodium-ion batteries.
Chemical Engineering Journal (IF=16.744, SCI一区),2021,411,128518.
https://doi.org/10.1016/j.cej.2021.128518
(18) Junhong Guo, Fan Feng, Shiqiang Zhao, Rui Wang, Meng Yang, Zhenhai Shi, Yufeng Ren, Zifeng Ma, Suli Chen*, Tianxi Liu*. Achieving Ultra-Stable All-Solid-State Sodium Metal Batteries with Anion-Trapping 3D Fiber Network Enhanced Polymer Electrolyte.
Small (IF=15.153, SCI一区), 2023, 2206740.
https://doi.org/10.1002/smll.202206740
(17) Zhiming Zhou, Peirong Lin, Shiqiang Zhao, Huile Jin, Yudan Qian, Xi,an Chen, Xinyue Tang, Qingcheng Zhang*, Daying Guo*, Shun Wang*. High Pseudocapacitance-Driven CoC2O4 Electrodes Exhibiting Superior Electrochemical Kinetics and Reversible Capacities for Lithium-Ion and Lithium–Sulfur Batteries.
Small (IF=15.153, SCI一区), 2022, 2205887.
https://doi.org/10.1002/smll.202205887
(16) Qingcheng Zhang, Junping Zhao, Yechao Wu, Jun Li, Huile Jin, Shiqiang Zhao, Lulu Chai, Yahui Wang, Yong Lei*, Shun Wang*. Rapid and Controllable Synthesis of Nanocrystallized Nickel‐Cobalt Boride Electrode Materials via a Mircoimpinging Stream Reaction for High Performance Supercapacitors.
Small (IF=15.153, SCI一区), 2020, 16, 2003342.
https://doi.org/10.1002/smll.202003342
(15) Ruiping Liu, Chao Shen, Yue Dong, Jinlei Qin, Qi Wang, James Iocozzia, Shiqiang Zhao, Kunjie Yuan, Cuiping Han, Baohua Li, Zhiqun Lin*,Sandwich-like CNTs/Si/C nanotubes as high performance anode materials for lithium-ion batteries.
Journal of Materials Chemistry A (IF=14.551,SCI一区), 2018, 6, 14797.
https://doi.org/10.1039/C8TA04686G
(14) Xiangang Lin, Xiaojuan Hou, Lixia Cui, Shiqiang Zhao, Hong Bi, Haiwei Du*, Yupeng Yuan*. Increasing π-electron availability in benzene ring incorporated graphitic carbon nitride for increased photocatalytic hydrogen generation.
Journal of Materials Science & Technology (IF=10.319, SCI一区),2021, 65, 164-170. https://doi.org/10.1016/j.jmst.2020.03.086
(13) Hongrui Jiang, Shiqiang Zhao, Xiaoli Ma, Shaojie Liu, Qiang Shen*. A fast π-π stacking self-assembly of cobalt terephthalate dihydrate and the twelve-electron lithiation-delithiation of anhydrous cobalt terephthalate.
Journal of Power Sources (IF=9.794, SCI一区),462(2019)23-32.
https://doi.org/10.1016/j.jpowsour.2019.04.020
(12) Junping Zhao, Yechao Wu, Yihuang Chen, Huile Jin, Shuang Pan, Shiqiang Zhao, Xin Feng, Yahui Wang, Qingcheng Zhang*, Shun Wang*. Continuous impinging in a two-stage micromixer for the homogeneous growth of monodispersed ultrasmall Ni–Co oxides on graphene flakes with enhanced supercapacitive performance.
Materials Chemistry Frontiers (IF=8.683, SCI一区),2021,5, 4700-4711.
https://doi.org/10.1039/D1QM00268F
(11) Rui Liu, Shiqiang Zhao, Miaomiao Zhang, Fan Feng and Qiang Shen*. High interfacial lithium storage capability of hollow porous Mn2O3 nanostructures obtained from carbonate precursors.
Chemical Communications (IF=6.065, SCI一区), 51(2015) 5728.
https://doi.org/10.1039/C5CC00402K
(10) Fenglin Liu, Yanyan Gao, Shiqiang Zhao, Qiang Shen*, Yunlan Su and Dujin Wang. Biomimetic fabrication of pseudohexagonalaragonite tablets through a temperature-varying approach.
Chemical Communications (IF=6.065, SCI一区), 46 (2010) 4607.
https://doi.org/10.1039/B925593A
(9) Fan Feng, Shiqiang Zhao, Rui Liu,Zewen Yang, Qiang Shen*. NiO Flowerlike porous hollow nanostructures with an enhanced interfacial storage capability for battery-to-pseudocapacitor transition.
Electrochimica Acta (IF=7.336, SCI一区), 222 (2016) 1160.
https://doi.org/10.1016/j.electacta.2016.11.088
(8) Xiaoyan Zhang, Shuang Pan*, Huanhuan Song, Wengai Guo, Shiqiang Zhao, Guang Chen, Qingcheng Zhang, Huile Jin, Lijie Zhang, Yihuang Chen*, Shun Wang*. Polymer–Inorganic Thermoelectric Nanomaterials: Electrical Properties, Interfacial Chemistry Engineering, and Devices.
Frontiers in Chemistry (IF=5.545, SCI三区),2021,9,PMC8107684.
https://doi.org/10.3389/fchem.2021.677821
(7) Faqi Yu, Yilin Li, Meng Jia, Tian Nan, He Zhang, Shiqiang Zhao, Qiang Shen*. Elaborate construction and electrochemical properties of lignin-derived macro-/micro-porous carbon-sulfur composites for rechargeable lithium-sulfur batteries: The effect of sulfur-loading time.
Journal of Alloys and Compounds (IF=6.371, SCI二区), 709 (2017) 677.
https://doi.org/10.1016/j.jallcom.2017.03.204
(6) Rui Liu, Fenglin Liu, Shiqiang Zhao, Yunlan Su, Dujin Wang, Qiang Shen*. Crystallization and oriented attachment of monohydrocalcite and its crystalline phase transformation.
CrystEngComm (IF=3.756, SCI二区), 15 (2013) 509.
https://doi.org/10.1039/C2CE26562A
(5) Chenhao Zhao, Fan Feng, Xinxin Wang, Rui Liu, Shiqiang Zhao, Qiang Shen*. Synthesis of porous AMn2O4 (A= Zn, Zn0. 5Co0. 5, Co) microspheres and their comparative lithium storage performances.
Powder Technology (IF=5.640, SCI二区), 261 (2014) 55.
https://doi.org/10.1016/j.powtec.2014.04.026
(4) Ruiping Liu, Chao Shen, Chao Zhang, James Iocozzia, Qi Wang, Shiqiang Zhao, Kunjie Yuan, Zhiqun Lin*.Hierarchical bicomponent TiO2 hollow spheres as a new high-capacity anode material for lithium-ion batteries.
Journal of Materials Science (IF=4.682, SCI三区), 53 (2018) 8499.
https://doi.org/10.1007/s10853-018-2195-6
(3) Ruiping Liu, Weiming Su, Chao Shen, James Iocozzia, Shiqiang Zhao, Kunjie Yuan, Ning Zhang, Chang-an Wang, Zhiqun Lin*. Hydrothermal synthesis of hollow SnO2 spheres with excellent electrochemical performance for anodes in lithium ion batteries.
Materials Research Bulletin (IF=5.600, SCI三区), 96 (2017) 443.
https://doi.org/10.1016/j.materresbull.2017.03.004
(2) Chenhao Zhao, Wenpei Kang, Xinxin Wang, Shiqiang Zhao, Qiang Shen*.Sacrificial templating synthesis of rod-like LiNixMn2−xO4 spinels and their improved cycling performance.
Micro & Nano Letters (IF=0.980 , SCI四区), 7 (2012) 558
https://dx-doi-org.webvpn.wzu.edu.cn/10.1049/mnl.2012.0020
(1) Chenhao Zhao, Wenpei Kang, Shiqiang Zhao, Qiang Shen*.Hydrazine–hydrothermal synthesis of pure-phase O-LiMnO2 for lithium-ion battery application.
Micro & Nano Letters (IF=0.980, SCI四区), 6 (2011) 820
https://dx-doi-org.webvpn.wzu.edu.cn/10.1049/mnl.2011.0378
【发明专利,Patents】
(8)赵世强、谢富荣、王舜、金辉乐,一种草酸辅助合成二氧化锡纳米颗粒复合石墨烯高性能储锂储钠材料的制备方法及其应用,(20220225公开CN114094062A)。
(7)赵世强、费佳敏、王舜、金辉乐,一种米粒状碳酸锰复合石墨烯高性能储锂材料及锂电池(20220225公开CN114094061A)。
(6)赵世强、李广辉、王舜、金辉乐,一种纳米片状草酸锡高性能储锂储钠材料及电池(20220301公开CN114105760A)。
(5)王舜、赵世强、李广辉、金辉乐、刘权锦、张智栋、王龙玉,一种锡铁合金纳米颗粒高性能储锂储钠材料及其应用(20220322公开CN114210990A)。
(4)王舜、赵世强、费佳敏、金辉乐、黄磊、林幸胜、金盟凯,一种亚微米棒状碳酸钴复合石墨烯高性能储锂材料及锂离子电池(20220322公开CN114220955A)。
(3)王舜、赵世强、李广辉、金辉乐、李菲、吴瑞洁、姚昊天,一种锡微米颗粒复合石墨烯高性能储锂储钠材料及其应用(20220325公开CN114242991A)。
(2)沈强, 赵世强, 刘睿, 赵陈浩,一种PbO1.44空心球状聚集体的可控制备方法(ZL 201210445288.4).(授权)
(1)沈强, 赵世强, 张贺, 王雨曦, 刘新茹,一种碳酸氢镍空心球状聚集体(ZL 201410151621.X).(授权)
【项目及经费, Fundings】
(7) 地方高校基础学科拔尖创新人才培养模式的改革与实践[教学改革项目]。浙江省“十四五”跨学科人才培养项目(参与),项目号:jg20220523,经费:4万,期限:2023.01- 2024.12(在研)。
(6) 廉价过渡金属氟化物高容量钠电正极的同相粗化抑制设计及储能机理原位探究。浙江省自然科学基金-探索一般项目(主持),项目号:LY23B030001,经费:10万,期限:2023.01- 2025.12(在研)。
(5)单分散过渡金属碳酸盐/石墨烯纳米复合储钠材料的精准合成、协同增效及储能机理研究。国家自然科学基金-青年科学基金(主持),项目号:21905208,经费:25万+5万(间接经费),期限:2020.1 - 2022.12(在研)。
(4) 温州大学高层次人才引进科研启动经费(负责人):100万,期限:2019.12 - 至今。
(3) 碳酸锰/石墨烯及其派生的氧化锰/石墨烯纳米复合电极的表界面活性和界面储锂机制的研究。国家自然科学基金-面上项目(参与,第二完成人),经费:65万, 期限:2017.1 - 2020.12(已结题)。
(2)过渡金属(钴、铁、锰或镍)碳酸盐-氧化石墨烯纳米复合电极的表界面活性或表界面储锂机制的研究。山东省自然科学基金-面上项目(参与,第二完成人),经费:16万,期限:2016.1 - 2019.12(已结题)。
(1) “无机碳酸盐/有机导电聚合物”新型复合纳米结构的可控制备及其功能化。山东大学基本科研业务费资助项目(参与,第二完成人),经费:40万,期限:2014.1 - 2016.12(已结题)。
【学术会议,Academic Conferences】
(1) 邀请报告(Invited Talk),报告题目:“过渡金属碳酸盐的超高储锂容量来源及性能优化策略”“Sources of Ultrahigh Lithium Storage Capacity and Strategies of Performance Enhancement of Transition Metal Carbonates (MCO3)”。 The 2nd International Conference on Elecrochemical Energy Systems(ICEES),第二届国际电化学能源系统大会,中国-绍兴,2021.05.14-17。
【网页报道,Web Reports】
(15) 我校赵世强副教授在国际著名期刊Carbon Energy发表学术论文
http://www.wzu.edu.cn/info/1237/43674.htm 【温州大学主页-学术温大】
(14) 温州大学赵世强Carbon Energy:石墨烯限域固相前驱衍生纳米单晶组装MnCO3空心纺锤实现超高电容/界面储锂
https://mp.weixin.qq.com/s/0_Zrod44CgVFJ2blIw1j2A【Wiley MaterialsViews微信公众号】;
https://mp.weixin.qq.com/s/MEHalrzgjKnaPBjR6bhZ5w 【Carbon Energy微信公众号】;
(13) 我院王舜教授/赵世强副教授团队研究论文入选JMCA期刊封面
http://chem.wzu.edu.cn/info/2597/39762.htm
(12) 温州大学王舜教授团队在储能材料研究获系列进展
https://it.sohu.com/a/615295460_120370286
(11) 我院王舜教授/赵世强副教授团队在国际能源期刊JMCA发表学术论文
http://chem.wzu.edu.cn/info/2597/39641.htm
(10) 我院赵世强&何坤&肖遥博士受邀担任国际能源期刊 Frontiers in Energy Research电池专刊客座主编
http://chem.wzu.edu.cn/info/2597/38941.htm
(9) 我校王舜&赵世强团队研究论文被国际能源顶级期刊Advanced Energy Materials选为封面文章
http://www.wzu.edu.cn/info/1237/40817.htm 【温州大学主页-学术温大】;http://chem.wzu.edu.cn/info/2597/38676.htm;https://mp.weixin.qq.com/s/yg2FuJBSFFtlCLfiXw3fpA
(8) 崔光磊、周光敏、万佳雨、赵世强教授领衔,权威解读电池前沿研究——Carbon Energy首个影响因子今晚公布!共聚瓯江学术论坛电池专场(2022年6月28日19:00)
https://mp.weixin.qq.com/s/1OmhM5XqpT73w82RvHZujw ; 【Wiley MaterialsViews微信公众号】
http://chem.wzu.edu.cn/info/2536/38264.htm; https://www.koushare.com/lives/room/535222;
(7) 温州大学赵世强副教授做客我校“未央导师论坛”
http://www.sust.edu.cn/info/1245/16716.htm【陕西科技大学主页-学术交流】
(6) 我校化材学院王舜&赵世强团队在国际能源顶级期刊Advanced Energy Materials发表学术论文https://www.webvpn.wzu.edu.cn/info/1237/39884.htm【温州大学主页-学术温大】;https://chem.webvpn.wzu.edu.cn/info/1058/27512.htm;
(5) 我校化材学院赵世强和何坤博士受邀担任国际期刊Materials电池专刊客座主编https://xiaoyuanwang.webvpn.wzu.edu.cn/info/1062/72055.htm; https://chem.webvpn.wzu.edu.cn/info/1003/27156.htm
(4) 我校化材学院赵世强博士文章被国际能源顶级期刊AEM选为封面文章https://www.webvpn.wzu.edu.cn/info/1237/26928.htm【温州大学主页-学术温大】; https://chem.webvpn.wzu.edu.cn/info/1003/23026.htm;https://www.163.com/dy/article/FD0J35HN0534AY7Z.html
(3) 我校化材学院赵世强博士在国际能源顶级期刊AEM发表文章http://www.webvpn.wzu.edu.cn/info/1237/35214.htm 【温州大学网站主页-学术温大】; https://chem.webvpn.wzu.edu.cn/info/1003/22664.htm
(2) AEM:物理屏障、孔隙边界、异质界面——抑制Sn粗化增强SnO2储锂/钠/钾反应可逆性https://www.materialsviewschina.com/2020/01/42170/ 【Wiley MaterialsViews微信公众号】
(1) AEM:氨基酸功能化氧化石墨烯模板法控制生长超薄Co2(OH)2CO3纳米片实现高效储锂/储钠https://www.materialsviewschina.com/2019/07/38518/ 【Wiley MaterialsViews微信公众号】
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