一、 基本情況

李新宇，男，1981年生，博士，研究員（校聘教授），碩士生導師，研究方向：新型納米能源物理與器件（锂硫電池，鋅離子電池，超級電容器）。2018年入選“廣西高等學校千名中青年骨幹教師培育計劃”，“中國教育發展戰略學會人才發展專業委員會”專家評審庫成員，入選首批“屏風學者”。國家自然科學基金委項目評審專家，廣西、河北等省級自然科學基金項目評審專家。近年來，先後主持國家自然科學基金3項，廣西自然科學基金2項。出版專著1部，授權專利1項，在 “Appl. Phys. Lett.”、“Carbon” 、“Journal of Power Sources”, “Journal of Colloid and Interface Science”、 “Appl. Sur. Sci.”、“Electrochim. Acta”、  “J. Appl. Phys”等國内外SCI學術期刊上發表學術論文40餘篇。

聯系地址：廣西，桂林市，9728太阳集团首页理學院 郵編：541004

電子郵址：lixinyu5260@163.com

二、 個人主要經曆

2000～2004 湖南科技大學，電子信息工程專業，獲工學學士學位

2004～2007 湘潭大學，微電子學與固體電子學，獲工學碩士學位

2007～2010 中山大學，凝聚态物理專業，獲理學博士

2010～至今 9728太阳集团首页理學院

三、 主持的研究項目

1). 柔性三維多孔碳結構原位負載赝電容材料的構築及界面調控增容機制研究，國家自然科學基金（12164013）, 2022.01-2025.12， 38萬元，主持

2).量子點嵌入氧化石墨烯薄膜的構建及功能化改性研究，國家自然科學基金（51662004）, 2017.01-2020.12， 39萬，主持

3).氧空位調控磁性元素摻雜二氧化钛鐵磁性的可逆轉變性質研究，國家自然科學基金（11304051）, 2014.01-2016.12， 29萬，，主持

4). 主持廣西自然科學基金青年、面上項目各一項

四、研究興趣及指導學生情況

研究興趣：新型儲能材料與器件(金屬離子電池)

指導已畢業碩士生名單及去向：

許永傑（2015級，南京大學凝聚态物理專業博士）

徐丹丹（2017級，西安電子科技大學 材料科學與工程專業博士）

宣從旭（2018級，甯波維科新能源科技有限公司）

王準（2018級，交通銀行安慶分行）

李嘉勁（2019級，南京工業大學 化學專業博士）

蔣蘊龍（2019級，福州大學 材料專業博士）

五、專著、教材和專利

1).李新宇，《氧化石墨烯基超級電容器電極材料結構調控與性能研究》，延邊大學出版社， 2018.09. ISBN：978-7-5688-5859-5

2).李明，肖劍榮，王志勇，李新宇，《光電子技術》，上海交通大學出版社，上海，2017.08，ISBN：978-7-313-18151-0

3). 李新宇，許永傑，馮玉昆，李明，一種石墨烯量子點誘導高氮摻雜光還原氧化石墨烯制備方法，中國，專利号：201710329827.0

4). 李新宇，肖劍榮，唐濤， 李明， 文劍鋒，一種簡易制備N型石墨烯場效應管的方法，中國，專利号：201410561468.8

5). 李新宇; 肖劍榮; 文劍鋒; 王恒，金屬/Mn:TiO₂/Nb:SrTiO₃/金屬異質結的制備及電場調控磁性的方法，中國，專利号：201410361219.4

6).李新宇, 羅漲賓，徐丹丹，許永傑，文劍鋒; 一種光照氮摻雜三維石墨烯包覆螺旋碳管複合材料的方法，2020-01-21, 中國，授權專利号：ZL201810476577.8.

4、 近期發表的科研論文（第一或通訊作者）

(1)Bin Wang , Xinyu Li * , Yong Cheng **, Yaping Zeng , Ling Liu , Yong Chen , Ming Li , Jianrong Xiao *, Boosting lithium–sulfur battery performance using a phosphating nano-sulfur anchored on graphene framework anode, Journal of Power Sources, 553 (2023) 232269 （IF：9.796）

(2)Meng Xiang, Jiajin Li, Shuaiqiang Feng, Haiyang Zhang, Xueli Cao, Yaping Zeng, Xinyu Li*, Jianrong Xiao*, Synergistic capture and conversion of polysulfides in cathode composites with multidimensional framework structures, Journal of Colloid and Interface Science, 2022, 624:471-481. （IF：9.965）

(3)Jiajin Li, Xinyu Li*, Xin Fan, Tao Tang*, Ming Li, Yaping Zeng, Heng Wang, Jianfen Wen, Jianrong Xiao*, Holey graphene anchoring of the monodispersed nano-sulfur with covalently-grafted polyaniline for lithium sulfur batteries, Carbon, 188 (2022) 155-165.（封面論文）（IF：11.307）

(4)Yunlong Jiang, Xinyu Li*, Fangyuan Liu , Bing Wang , Wenquan Zhou , Shanxu Dong , Xin Fan *, In situ growth and anchoring NiCo2O4 nanowires on self-supported 3D holey graphene framework for supercapacitor, Applied Surface Science, 576 (2022) 151801. （IF：7.392）

(5) Congxu Xuan, Xinyu Li*, Zhun Wang, Hao Wu, Tao Tang, Jianfeng Wen, Ming Li*, and Jianrong Xiao*, Highly efficient polyaniline trapping and covalent grafting within a three-dimensional porous graphene oxide/helical carbon nanotube skeleton for high-performance flexible supercapacitors, ACS Appl. Energy Mater. 2021, 4:523-534.

(6) Zhun Wang, Xinyu Li*, Congxu Xuan, Jiajin Li, Yunlong Jiang, Jianrong Xiao*, Photo-synergetic nitrogendoped MXene/reduced graphene oxide sandwichlike architecture for high-performance lithiumsulfur batteries. Int. J. Energy Res. 2021, 45:2728-2738.

(7) Dandan Xu^#, Congxu Xuan^#, Xinyu Li*, Zhangbin Luo, Zhun Wang, Tao Tang*, Jianfeng Wen, Ming Li, Jianrong Xiao*, Novel helical carbon nanotubes-embedded reduced graphene oxide in three-dimensional architecture for high-performance flexible supercapacitors, Electrochimica Acta, 2020, 339:135912.

(8) Zhangbin Luo^#, Zengren Tao^#, Xinyu Li*, Dandan Xu, Congxu Xuan, Zhun Wang, Tao Tang, Jianfeng Wen*, Ming Li and Jianrong Xiao*, Ferroconcrete-Like helical carbon nanotube/reduced graphene oxide heterostructure 3D networks as sulfur hosts for high-performance Li-S batteries, Front. Energy Res., 2020, 7: 157.

(9) Xinyu Li, Yongjie Xu, Guanghui Hu, Zhangbin Luo, Dandan Xu, Tao Tang, Jianfeng Wen*, Ming Li*, Taoyun Zhou*, Yun Cheng, Self-assembled formation of conjugated 3D reduced graphene oxide-wrapped helical CNTs nanostructure and nitrogen-doped using photochemical doping for high-performance supercapacitor electrodes, Electrochimica Acta, 2018, 280: 33-40.

(10)Yi Luo, Ming Li*, Guanghui Hu, Tao Tang, Jianfeng Wen, Xinyu Li*, Liang Wang*, Enhanced photocatalytic activity of sulfur-doped graphene quantum dots decorated with TiO₂ nanocomposites, Mater. Res. Bull., 2018, 97: 428-435.

(11) Yongjie Xu, Xinyu Li*, Guanghui Hu, Ting Wu, Yi Luo, Lang Sun, Tao Tang, Jianfeng Wen, Heng Wang, Ming Li*, Graphene oxide quantum dot-derived nitrogen-enriched hybrid graphene nanosheets by simple photochemical doping for high-performance supercapacitors. Applied Surface Science, 2017, 422: 847-855.

(12) Lang Sun, Yi Luo, Ming Li*, Guanghui Hu, Yongjie Xu, Tao Tang, Jianfeng Wen, Xinyu Li*, Liang Wang*, Role of pyridinic-N for nitrogen-doped graphene quantum dots in oxygen reaction reduction, Journal of Colloid and Interface Science, 2017,508:154-158.

(13)  Yi Luo^#, Yongjie Xu^#, Ming Li*, Lang Sun, Guanghui Hu, Tao Tang, Jianfeng Wen, Xinyu Li*, Tuning the photoluminescence of graphene quantum dots by fluorination, Journal of Nanomaterials, 2017, 2017: 9682846.

(14) Yongjie Xu^#, Yukun Feng^#, Xinyu Li*, Guanghui Hu, Yi Luo, Lang Sun, Tao Tang, Jianfeng Wen, Heng Wang, and Ming Li, Direct formation of reduced graphene oxide and graphene quantum dot composites by using ascorbic acid as high-performance binder-free supercapacitor electrodes, Inter. J. of Electrochem. Sci., 2017, 12:8820- 8831.

(15) Xinyu Li，Tao Tang，Ming Li，Xiangcong He，Nitrogen-doped graphene films from simple photochemical doping for n-type field-effect transistors，Applied Physics Letters，2015，106（1）：013110-1-013110-5.

(16) Xinyu Li，Tao Tang，Ming Li，Xiangcong He，Photochemical doping of graphene oxide thin films with nitrogen for electrical conductivity improvement，Journal of Materials Science: Materials in Electronics，2015，26（3）：1770-1775。

17). X. Y. Li,* J. R. Xiao, Z. Y. Wang, S. W. Li，Structural and magnetic properties of Mn:TiO₂ films grown by plasma-assisted molecular beam epitaxy. Mater. Sci. Eng. B , 177, 869, 2012.

18). S. X. Wu, X. Y. Li, X. J. Xing, P. Hu, Y. P. Yu, , and S. W. Li*, Resistive dependence of magnetic properties in nonvolatile Ti/Mn:TiO₂/SrTi_0.993Nb_0.007O₃/Ti memory device. Appl. Phys. Lett. 94, 253504, 2009.

19). X. Y. Li*, Mechanisms of 1D Crystal Growth in Chemical Vapor Deposition:ZnO Nanowires. Adv. Mater. Research , 463, 1463, 2012.

20). P. Hu, X.Y. Li, J.Q. Lu, M. Yang, Q.B. Lv, S.W. Li*, Oxygen deficiency effect on resistive   switching characteristics of copper oxide thin films, Phy. Lett. A, 375, 1898, 2011.

21). Y. J. Liu, L. M. Xu, X.Y. Li, P. Hu, and S. W. Li*，Growth and magnetic property of ζ-phase Mn₂N_1±x thin films by plasma-assisted molecular beam epitaxy, J. Appl. Phys., 107, 103914, 2010.

22). X. Y. Li, S. X. Wu, P. Hu, X. J. Xing, Y. J. Liu,Y. P. Yu, M. Yang, J. Q. Lu, S. W. Li* and W. Liu, Structures and magnetic properties of p-type Mn:TiO2 dilute magnetic semiconductor thin films, J. Appl. Phys., 106, 043913, 2009.

23). X. Y. Li, S. X. Wu, L. M. Xu, Y. J. Liu, X. J. Xing, and S. W. Li*, Room-temperature ferromagnetism in (Mn, N)-codoped TiO₂ films grown by plasma assisted molecular beam epitaxy. J. Appl. Phys., 104, 093914, 2008.

24). X. Y. Li, S. X. Wu, L. M. Xu, C. T. Li, Y. J. Liu, X. J. Xing, and S. W. Li*, Effects of depositing rate on structure and magnetic properties of Mn:TiO₂ films grown by plasma-assisted molecular beam epitaxy. Mater. Sci. Eng. B , 156,  90, 2009.

25). X. Y. Li, J. Guo, S. L. Ding, T. j. Lin, J. T. Dong, Low Temperature Synthesis of Novel ZnO Nanowire Microspheres on Silicon Substrates, Rare Metals, 26, 242, 2007.