科研项目:
1.阴离子自由基介导的二氧化碳高通量还原与气电共生系统研究(22275074),2023.01-2026.12,国家自然科学基金委,排名2
2.具有单电子传递特征的低能障光电化学反应系统设计及制氢性能研究(21473079),2015.01-2018.12,国家自然科学基金委,排名1
3.检测痕量重金属离子及有机磷的双发光高效量子点荧光探针(21107032),2012.01-2014.12,国家自然科学基金委,排名1
4.纳米催化剂催化外消旋乳酸合成旋光性丙交酯的机理及其聚合物性能研究(Y406469),2007.01-2008.12,浙江省自然科学基金委,排名1
5.通过无定形胶体的晶化来控制制备一维纳米结构及三维纳米网络(20601020),2007.01-2009.12,国家自然科学基金委,排名2
6.新型生物材料马来酸酐-丙交酯共聚物的研究(20030756),2003.12-2006.06,浙江省教育厅,排名1
7.复合氧化物纳米晶高效催化合成高纯丙交酯(20041007),2004.01-2009.12,嘉兴市科技局,排名1
8.CdSe量子点标记链霉亲和素及其生物活性检测(20070601),2007.12-2008.10,浙江省教育厅,排名2
9.可生物降解聚乳酸塑料的研究开发(2008AY2018),2008.12-2009.12, 嘉兴市科技局,排名2
10.新型电动搅拌器系统的研制(200809),2008.09-2009.12,嘉兴老虎机
,排名1
11.特种压敏胶研发(00508111),2008.10-2010.12,横向课题,排名2
12.超顺磁性聚乳酸载药微球的制备及性能研究(2011AY1048-5),2011.01-2012.12,嘉兴市科技局,排名2
13.基于功能性二胺的无铅钙钛矿材料设计、合成及光伏性能研究(2020AD10020),2020.01-2023.03,嘉兴市科技局,排名2
14.羧甲基壳聚糖/碘抗菌材料的研发(00524214),2024.10-2026.8,横向课题,排名2
代表性成果:
论文:
[1]Ning Li, Jie Shao, Xuebo Cao*, Lin Huang*, Li Gu*, Jun Wu, Qiao Liang, Quankun Li. Electronically-Coupled Nanocarbon/Imidazole Complex as Mediator for Efficient CO2 Conversion in a Zn-CO2 Flow Battery. Advanced Functional Materials. 2025: e18969. //doi.org/10.1002.
[2]Ning Li, Jie Shao, Li Gu*, Xue-bo Cao*, Jian-wei Zhao*. Achieving high cycling stability in alkaline zinc-iron flow batteries through synergy of 3D VPCF/nicotinamide and active ZnO species. Journal of Central South University,2025,32, 3729-3747.
[3]Ying Yang, Xuebo Cao, *Lin Huang, *Quankun Li, Li Gu*, Zheng Yan, Mengli Li, Ruobin Cheng, Zhufeng Lu, Ai-Jun Wang, and Wenchao Yang. Hybrid Oxidization of Ethylene Glycolon Defective Ag-PtPd Electrocatalyst Beyond 3000h Stability at an Industrial-Scale Current Density. Advanced Functional Materials, 202418588.
[4]Qingshou Zheng, Lin Huang*, Shu Yang, Qiao, Liang, Ying Yang, Li Gu, Ruobing Cheng, Yongmiao Shen,* Zheng Yan,* Xuebo Caob*. Synergy between Multi-components and Irdopant in Ir-doped High-entropy Alloy Nanoparticles for Efficient and Robust Ethylene Glycol Electro-oxidation at an Industrial-level Current. Nanoscale.2025.17(20), 12989-12999.
[5]Lin Huang*, Maoqing Chen, Ying Yang, Qingshou Zheng, Li Gu, Ruobing Cheng, Xuebo Cao*. Ag-boosted hydroxyl adspecies generation and carbonyl intermediates release for Pt–Ag-catalyzed ethylene glycol electro-oxidation. Journal of Colloid And Interface Science. 2025.684.197-206.
[6]CHEN Xu-rui, WU Jun*, GU Li*, CAO Xue-bo*. Hollow tubes constructed by carbon nanotubes self-assembly for CO2 capture. Journal of Central South University, 2024, 31. 2256-2267.
[7]Shi Wang, Chenyang Dang, Mengli Li1, Li Gu, Jun Wu, and Xuebo Cao*.Boosting clean water evaporation and sustainable water treatment by photothermally induced artificial system. Journal of Materials Science, 2023,58:16105–16118.
[8]Xingtian Zhang, Jun Wu, Xiaoxiao Lu, Yefeng Yang*, Li Gu*, Xuebo Cao*. Aqueous 2-Ethyl-4-methylimidazole Solution for Efficient CO2 Separation and Puri fi cation. Separations, 2023,10(236).1-14.
[9]YU Xin-hao, WU Jun*, YU Jin-yuan, WANG De-qiang, HE Jia-yi, HU Jing, GU Li*, CAO Xue-bo. Fabrication of Fe3C nanoparticles encapsulated in undoped graphite carbon and their catalysis for oxygen reduction. Journal of Central South University, 2023, 30. 35-48.
[10]Xiaodie Chen, Li Gu, Chenyang Dang, Xuebo Cao*. A lightweight and high-strength epoxy composites based on graphene oxide modified kapok fibers. Composites Communications, 2022,31:101111-101116.
[11]Yang Chen, Yuxin Mei, Mengli Li*, Chenyang Dang, Lin Huang, Weiguo Wu, Yuanyuan Wu, Xinhao Yu, Kai Wang, Li Gu*, Lujia Liu *, and Xuebo Cao*. Highly selective CO2 conversion to methane or syngas tuned by CNTs@non-noble-metal cathodes in Zn-CO2 flow batteries. Green Chemistry, 2021,23(20): 8138-8146.
[12]Weiguo Wu, Lin Huang,* Yiming Li, Mengli Li, Yang Chen, Yi Yang, Xiaodie Chen, Yuanyuan Wu, Li Gu,* and Xuebo Cao*. On-Site Production of Dilute H2O2 with Zinc-Air Batter.Advanced Materials Technologies,2021, 2100708.
[13]Yuanyuan Wu, Lianwen Zhu, Ruting Chen,Li Gu*, Xuebo Cao, Shaorong Lu.Self-assembled activated carbon sandwiched graphene film for symmetrical supercapacitors. Journal of Central South University,2020,27.1-12
[14]Kai Wang, Yuanyuan Wu, Xuebo Cao, Li Gu*, Jing Hu.A Zn-CO2 Flow Battery Generating Electricity and Methane. Advanced Functional Materials, 2020,1908965, 1-9.
[15]Gui Ye, Zhiyong Yu, Yiming Li, Li Song, Li Gu* , Xuebo Cao.Efficient treatment of brine wastewater through a flow-through technology integrating desalination and photocatalysis. Water Research, 2019, 157,134-144.
[16]Huating Ye, Kai Wang, Juntao Zhou, Li Song, Li Gu* and Xuebo Cao* True cable assembly with carbon nanotube sheath and nickel wire core: a fully flexible electrode integrating energy storage and electrical conduction. Journal of Materials Chemistry A, 2018, 6, 1109–1118.
[17]Qiaodi Wang, Yiming Li, Kai Wang, Juntao Zhou, Lianwen Zhu, Li Gu*, Jing Hu, Xuebo Cao *. Mass production of porous biocarbon self-doped by phosphorus and nitrogen for cost-effective zinc–air batteries. Electrochimica Acta. 2017, 257. 250–258.
[18]S Zhang,XB Cao,WU Jun,LW Zhu,GU Li*. Preparation of hierarchical CuO@TiO2 nanowire film and its application in photoelectrochemical water splitting. Transactions of Nonferrous Metals Society of China 2016.06, 26(8):2094-2101.
[19]Yiming Li, Kai Wang, Jun Wu, Li Gu* , Zhufeng Lu, Xinjun Wang and Xuebo Cao*. Synthesis of highly permeable Fe2O3/ZnO hollow spheres for printable photocatalysis. RSC Advances, 2015, (107):88277-88286.
[20]Xuebo Cao,* Zhufeng Lu, Lianwen Zhu, Le Yang and Li Gu*. Liling Cai and Jie Chen. A new family of sunlight-driven bifunctional photocatalysts based on TiO2 nanoribbon frameworks and bismuth oxohalide nanoplates. Nanoscale, 2014, 6, 1434–1444.
[21]Shuai Zhang, Zhufeng Lu, Li Gu,* Liling Cai and Xuebo Cao*. Deterministic growth of AgTCNQ and CuTCNQ nanowires on large-area reduced graphene oxide films for flexible optoelectronics. Nanotechnology, 2013, 24, 465202 (Selected as the cover paper).
[22]Xuebo Cao,* Yun Zhou, Jun Wu, Yuxin Tang, Lianwen Zhu and Li Gu*. Self-assembled, robust titanate nanoribbon membranes for highly efficient nanosolid capture and molecule discrimination. Nanoscale, 2013, 5, 3486–3495.
[23]QinghuaLI, Qinhua ZHOU, Dan DENG, Qiaozhen YU, Li GU*, Keda GONG, Kehang XU. Enhanced Thermal and Electrical Properities of Poly(D,L-lactide)/multi-walled Carbon Nanotubes composites by in –situ polymerization. Transactions of Nonferrous Metals Society of China, 2013, 23(5):1421-1427.
[24]Yun Zhou, Lianwen Zhu, Li Gu,* Shulong Cao, Lijia Wang and Xuebo Cao*. Guided growth and alignment of millimetre-long titanate nanofibers in solution. Journal of Materials Chemistry, 2012, 22, 16890–16896.
[25]Jinmei Zhu, Lianwen Zhu, Zhufeng Lu, Li Gu,* Shulong Cao and Xuebo Cao*. Selectively Expanding Graphene Oxide Paper for Creating Multifunctional Carbon Materials. The Journal of Physical Chemistry C, 2012, 116, 23075−23082.
[26]HuYaoping, Cao Leijian, Gu Li*, Li Qinghua, Shen Hongxia, Zheng Tao. Preparation and Biocompatibility Evaluation of Poly(D,L-lactide-co-blycine). Journal of Central South University, 2012,6, 1517-1521.
[27]Cao Leijian, Zhou Qinhua, Gu Li*, Shen Hongxia, Li Qinghua, Lan Ping, Fang Yan. Preparation and Characterization of Composite Microspheres of Nano Zinc Ferrite/Poly(D,L-lactide-co-alanine). Transactions of Nonferrous Metals Society of China, 2012, 22(2):360-365.
[28]Lianwen Zhu, Li Gu, Yun Zhou, Shulong Cao and Xuebo Cao*. Direct production of a free-standing titanate and titania nanofiber membrane with selective permeability and cleaning performance. Journal of Materials Chemistry, 2011, 21, 12503–12510.
[29]Peng Chen, Li Gu, Xiudong Xue, Mingjuan Li and Xuebo Cao*. Engineering the growth of TiO2 nanotube arrays on flexible carbon fibre sheets. Chemical Communications, 2010, 46, 5906–5908.
[30]Pen Chen, Li Gu and Xuebo Cao*. From single ZnO multipods to heterostructured ZnO/ZnS, ZnO/ZnSe, ZnO/Bi2S3 and ZnO/Cu2S multipods: controlled synthesis and tunable optical and photoelectrochemical properties. CrystEngComm, 2010, 12, 3950–3958.
[31]Peng Chen, Li Gu, Xiudong Xue, Yingying Song, Lianwen Zhua, Xuebo Cao*. Facile synthesis of highly uniform ZnO multipods as the supports of Au and Ag nanoparticles. Materials Chemistry and Physics, 2010, 122, 41–48.
[32]Li Gu*, Hongxia Shen, Facile one-pot synthesis of multi-armed Fe3O4 nanocrystals. Journal of Alloys and Compounds, 2009, 472/1-2/50-54.
[33]Xiudong Xue, Li Gu, Xuebo Cao*, Yingying Song, Lianwen Zhu and Peng Chen. One-pot, high-yield synthesis of titanate nanotube bundles decorated by Pd (Au) clusters for stable electrooxidation of methanol. Journal of Solid State Chemistry, 2009, 182, 2912–2917.
[34]GU Li, LI Fei, MA Hong-xia, ZHANG Yang, Synthesis of optically active lactide catalyzed by nanocrystals of La-Ti composite oxides, Journal of Central South University of Technology,2008, 15(4):469-473.
[35]Li Gu, Xuebo Cao* and Cui Zhao, Gram-scale preparation of hollow spheres of ZnS by scarifying ZnO crystallites within core–shell-structured ZnS/ZnO precursors. Colloids and Surfaces A: Physicochemical Engineer Aspects, 2008, 326, 98–102.
[36]GU Li. Fabrication of 2D and 3D dendritic nanoarchitectures of CdS, Transactions of Nonferrous Metals Society of China, 2008, 18(4):904-907.
[37]Xuebo Cao*, Li Gu, Lanjian Zhug, Wenhu Qian, Cui Zhao, Xianmei Lan, Wenjun Sheng and Dan Yao. Template-free preparation and characterization of hollow indium sulfide nanospheres, Colloids and Surfaces A: Physicochemical Engineer Aspects, 2007, 297, 183–190.
[38]Xuebo Cao*, Li Gu, Xianmei Lan, Cui Zhao, Dan Yao and Wenjun Sheng. Spinel ZnFe2O4 nanoplates embedded with Ag clusters: Preparation, characterization, and photocatalytic application. Materials Chemistry and Physics, 2007, 106, 175–180.
[39]Xuebo Cao*, Li Gu, Lajian Zhuge, Weijian Gao, Wancheng Wang and Shufeng Wu. Template-Free Preparation of Hollow Sb2S3 Microspheres as Supports for Ag Nanoparticles and Photocatalytic Properties of the Constructed Metal–Semiconductor Nanostructures. Advanced Functional Materials, 2006, 16, 896–902.
[40]GU Li, CHEN Shu-da, WEI Xiao-yan, Supermolecular template route to fabrication of well crystalline hollow antimony Microspheres, Transactions of Nonferrous Metals Society of China, 2006, 16(2):346-350.
[41]Xuebo Cao* and Li Gu. Spindly cobalt ferrite nanocrystals: preparation, characterization and magnetic properties. Nanotechnology, 2005, 16, 180–185.
[42]GU Li, CHEN Shu-da, ZHAO Hui-min, Strain-induced orientation of copper oxide nanoislands through decomposition of pre-organized copper nitrate, Transactions of Nonferrous Metals Society of China, 2004, 14(1):127-130.
[43]Li GU, Yuan Liang WANG, Li Ling TANG, Jiu Jin ZHU, Jun Han WU,Preparation of La-Ti Composite Oxide Nanocrystal and Examination of Their Surface Topography with Atomic Force Microscope, Chinese Chemical Letters,2003,14(4):429-432.
专利:
[1]一种 TiO2 纳米纱布的制备方法,曹雪波,朱连文,谷俐,张帅.国家发明专利,2017:ZL 2014 1 0470117.6
Preparation of nano gauze with TiO2. Xuebo Cao, Lianwen ZHU, li Gu, Shuai Zhang. National Invention Patent, 2017: ZL 2014 1 0470117.6
[2]木棉纤维基弹性泡沫材料的制备及应用. 曹雪波, 谷俐, 朱龙凤,王巧娣 国家发明专利。2017,ZL201710402218.3
Preparation and Application of Kapok Fiber-based Elastic Foam materials, Xuebo Cao, Li Gu, Longfeng Zhu, Qiaodi Wang. National Invention Patent, 2017,ZL201710402218.3
[3]纳米级镧钛复合氧化物及其制法和用途. 王远亮,谷俐,王建华,潘君。国家发明专利,1394680A
Nanoscale lanthanum-titanium composite oxides and their preparation methods and applications. Yuanliang Wang, Li Gu, Jianhua Wang, Jun Pan. National Invention Patent, 1394680A