尉国栋:
尉国栋:男,1981年出生,山西大同人,教授,博士生导师。曾入选陕西省青年千人、浙江省高等学校中青年学科带头人和吉林大学学术骨干,长期致力于碳化硅基半导体纳米材料的可控制备及其光电器件应用研究。到目前为止,已经在国内外学术刊物发表SCI收录论文近100多篇。在JACS, NAPG, CEJ, CC, Nanoscale, Nanoresearch, JMCA, JPCC, APL等期刊上发表论文100余篇(第一作者/通讯作者论文50余篇,一区文章20篇)和授权发明专利17项,H因子为39,受邀作为40余种国际知名刊物的审稿人;主持和参与国家自然基金委项目5项,973计划前期研究专项、宁波市科技攻关等10多项不同级别的项目,其中主持国家自然基金面上和青年各一项,陕西省、浙江省和吉林省面上基金项目各一项。每年计划招收硕士研究生2-3名和博士研究生,欢迎具有物理、电子、化学及材料等相关专业背景的同学加入团队。同时也欢迎有精力的本科生来本课题组进行科研锻炼和提前接触科研训练。
联系方式:E-mail:wgd588@163.com
研究方向:
1)基于第三代半导体碳化硅的器件制备及其性能应用研究
2)人工神经形态突触器件
3)微型核电池
主持的主要项目:
1) 2018年国家自然基金面上项目,51372122,4H-SiC纳米线阵列基β辐射伏特效应微型核电池的研究,项目负责人。
2) 2022年陕西省自然基金面上项目,2022JM-373,基于SiC-石墨烯核壳纳米线阵列的垂直肖特基结型紫外光电探测器研究,项目负责人。
3) 2017年吉林省自然科学基金面上项目,20170101193JC,固定化生物-纳米复合磁性除铀吸附剂的应用性基础研究,项目负责人。
4) 2013年浙江省本科院校中青年学科带头人学术攀登计划,项目负责人。
5) 2012年国家自然科学基金(青年科学基金项),51202115,4H-SiC 纳米线阵列结构精细调控及其日盲型紫外光探测性能研究,项目负责人。
6) 2011年宁波市自然基金,2011A610097,绿色高效的SiC/Cu2O纳米异质PN结的可见光制氢研究,负责人。
7) 2011年浙江省自然基金,Y4110529,可见光响应的SiC/Cu2O核壳纳米异质PN结高效光催化制氢研究,项目负责人。
8) 第48批博士后基金,20100481063,塔状SiC纳米线阵列的微波可控合成及其场发射特性的研究,项目负责人。
代表性的论文:
1. Z-scheme Heterojunction Photocatalyst Based on Lanthanum Single-Atom Anchored on Black Phosphorus for Regulating Surface Active Sites, therefore Enhancing Photocatalytic CO2Reduction with ≈100% CO Selectivity, Qiuye Wang, Liyan Dong, Minze Li, Honglai Lu, Guodong Wei*, Yang Qu, Guofeng Wang*, Adv. Funct. Mater. 2022, 1, 2207330,
2. Shuai Yuan, Bocang Qiu, Koshayeva Amina, Lan Li, Peichen Zhai, Ying Su, Tao Xue, Tao Jiang, Liping Ding,* and Guodong Wei*, Robust And Low Power Consumption Black Phosphorous-Graphene Artificial Synaptic Devices. ACS Appl. Mater. Inter., 2022, 14, 18, 21242-21252.
3. Shuaikai Xu,SurongYan, Xue Chen, Haifu Huang, Xianqing Liang, Yuanhao Wang, Qing Hu, Guodong Wei*, Ya Yang, Vertical porous Ti3CNTx/rGO hybrid aerogels with enhanced capacitive performance, Chem. Eng. J., 2023, 459, 141528.
4. Multifunctional SERS chip mediated by black phosphorus@gold-silver nanocomposites inserted in bilayer membrane for in-situ detection and degradation of hazardous materials, JialiMa, LanxinXu, Yongling Zhang, Liyan Dong, Chenjie Gu, Guodong Wei*, Tao Jiang, J. Colloid Interf. Sci. 2022, 626, 787-802.
5. Robust and Fast Response Solar-Blind UV Photodetectors Based on the Transferable 4H-SiC Free-standing Nanowire Arrays, LanLi, ShuaiYuan, PeichenZhai, YingSu, RuiLou, XiaodongHao, Hengsheng Shan, Tao Xue, Hongmei Liu, Tianhua Meng, Tao Jiang, Liping Ding*, Guodong Wei*, Sensor Actuat. A-Phys., 2022, 346, 113878,
6. Jinju Zheng, Haining Chong, Lin Wang, Shanliang Chen, Weiyou Yang, GuoDong Wei* and Fengmei Gao, Robust SiC Nanoarray Blue-Light Photodetector, J. Mater. Chem. C, 2020, 8, 6072-6078.
7. YiMa, Yuanyuan Du, Ying Chen, Chenjie Gu, Tao Jiang, Guodong Wei*, JunZhou, Intrinsic Raman signal of polymer matrix induced quantitative multiphase SERS analysis based on stretched PDMS film with anchored Ag nanoparticles/Au nanowires, Chem. Eng. J. 2020, 381, 122710-16.
8. Xu Liang, Guohui Long, Chengwei Fu, Mingjun Pang, Yunlong Xi, Junzhi Li, Wei Han, Guodong Wei*, Yuan Ji*, High Performance All-Solid-State Flexible Supercapacitor for Wearable Storage Device Application, Chem. Eng. J. 2018, 345, 186-195.
9. Shuaikai Xu, Guodong Wei*, Junzhi Li, Yuan Ji, and Wei Han*. Binder-free Ti3C2Tx MXene electrode film for supercapacitor produced by electrophoretic deposition method, Chem. Eng. J. 2017, 317, 1026-1036.
10. Yunlong Xi, Guodong Wei,* Xilong Liu, Mingjun Pang, Liangbao Liu, Yu Yang, Yuan Ji, V. Yu. Izotov, N. I. Klyuia, Wei Han*, Enhancing the cycling stability of the polyaniline hybrids benefited from the hollow manganese dioxide/acetylene black skeleton, Chem. Eng. J. 2016, 290, 361-370.
11. Wang Lin, Chengming Li, Yang Yang, Shanliang Chen, Fengmei Gao, Guodong Wei*, and Weiyou Yang*, Large-Scale Growth of Well-aligned SiC Tower-like Nanowire Arrays and Their Field Emission Properties, ACS Appl. Mater. Inter. 2015, 7, 526–533.
12. Yunlong Xi, Guodong Wei*, Junzhi Li, Yu Yang, Han Wei. Facile synthesis of MnO2-Ni (OH)2 3D Ridge-like Porous Electrode Materials by Seed-induce Method for High-performance Asymmetric Supercapacitor, Electrochimica Acta 2017, 233, 26-35.
13. Mingze Xu, Guodong Wei*, Na Liu, Liang Zhou, Chengwei Fu, M. Chubik, A. Gromov and Wei Han*, Novel fungus-TiO2 bio-nano composites as the high performance absorbents for efficient removal of radioactive ions in waste water, Nanoscale 2014, 6, 722-725.
14. Fengmei Gao, Jinju Zheng, Mingfang Wang, Guodong Wei*, and Weiyou Yang*, Piezoresistance Behaviors of p-type 6H-SiC Nanowires, Chem. Comm. 2011, 47, 11993-11995.
15. Ivan Shanenkov, Alexander Sivkov, Alexander Ivashutenko, Viktor Zhuravlev, Qing Guo, Liping Li, Guangshe Li, GuoDong Wei*, Wei Han*, Magnetite hollow microspheres with broad absorption bandwidth of 11.9 GHz: toward promising lightweight electromagnetic microwave absorption, Phys. Chem. Chem. Phys. 2017, 19, 19975-19983
16. Wang Lin, Chengming Li, Fengmei Gao, Jinju Zheng, Guodong Wei* and Weiyou Yang*, Low-aspect ratio graphite hollow nanostructures, CrystEngComm, 2013, 15, 8907-8911.
17. Guang Wei, Haiyun Liu, Changkuai Shi, Fengmei Gao, Jinju Zheng, Guodong Wei,* and Weiyou Yang, Temperature-Dependent Field Emission Properties of 3C-SiC Nanoneedles, J. Phys. Chem. C, 2011, 115, 13063–13068.
18. He Zhang, Jian Han, Xiaowei Niu, Xu Han, Guodong Wei*, and Wei Han*, Study of synthesis and catalytic property of WO3/TiO2 catalysts for NO reduction at high temperatures, J. Molecular Catalysis A: Chem. 2011, 1-2, 35-39.
19. Guodong Wei, Fengmei Gao, Jinju Zheng, Mingfang Wang, Wei Han, Weiyou Yang, Unconventional Vapor-Liquid-Solid Growth of SiO2 Nanooctopuses, CrystEngComm, 2011, 13, 7231-7235.
20. Guodong Wei, Weiping Qin, Ryongjin Kim, Guofeng Wang, Daisheng Zhang, Peifen Zhu, Kezhi Zheng, Xiaojie Xue, and Lili Wang, Synthesis and Properties of SiC/SiO2 Nanochain Heterojunctions by Microwave Method, Cryst. Growth Des. 2009, 9, 1431.
21. Guodong Wei, Weiping Qin, Wei Han, Weiyou Yang, Fengmei. Gao, Guangzhun. Jing, Ryongjin. Kim, Daisheng. Zhang, Kezhi. Zheng, Lili. Wang, Ling Liu, Large-Scale Synthesis of Wide Band Gap Semiconductor Nanostructures by Microwave Method, J. Phys. Chem. C 2009, 113, 19432.