1、 基本情况
唐涛,男,湖北仙桃人,1981年9月出生,武汉大学物williamhill体育入口注册本科毕业。桂林电子科技大学通信与信息系统工学硕士,南京大学物理学博士。现为桂林理工大学教授。
主要从事碳材料、铅卤钙钛矿系列材料的制备、光电、输运及自旋特性研究。主持国家自然科学基金1项,广西自然科学基金项目2项。近年来已经在Applied Physics Letters、Scientific Reports、Journal of Applied Physics、Carbon等期刊发表了多篇论文。获得国家发明专利4项。
2、 个人主要经历
1998.09~2002.06,武汉大学材料物理系,本科。主要从事钙钛矿结构材料的巨磁电阻效应研究;
2002.07~至今, 桂林理工大学williamhill体育入口注册工作。讲授光学、信号与系统、光通信技术、信息论等课程;
2006.09~2011.06,桂林电子科技大学通信与信息系统学院,硕士,主要从事无线通信系统的设计、信道特性分析研究;
2012.09~2015.06 南京大学物williamhill体育入口注册,博士。主要从事石墨烯系列材料的制备与磁性、输运及发光特性研究。
2018.04~2019.04 新加坡南洋理工大学物理与应用物理系,从事博士后(访问)研究。主要研究铅卤钙钛矿材料的光学性质。
3、 近期科研成果
[1] Zengsheng Guo; Shengnan Ni; Hao Wu; Jianfeng Wen; Xinyu Li; Tao Tang; Ming Li; Min Liu, Designing nitrogen and phosphorus co-doped graphene quantum dots/g-C3N4 heterojunction composites to enhance visible and ultraviolet photocatalytic activity, Applied Surface Science, 2021, 548: 149211. https://doi.org/10.1016/j.apsusc.2021.149211
[2] Shengnan Ni; Haijun Qin; Jianfeng Wen; Xinyu Li; Ming Li; Tao Tang; Fuchi Liu, Burstein-Moss shift of lead halide perovskite quantum dots induced by electron injection from graphene oxide, Applied Surface Science, 2021, 545: 149003, https://doi.org/10.1016/j.apsusc.2021.149003
[3] Hao Wu; Zengsheng Guo; Ming Li; Guanghui Hu; Tao Tang; Jianfeng Wen; Xinyu Li; Haifu Huang, Enhanced pseudocapacitive performance of MoS2 by introduction of both N-GQDs and HCNT for flexible supercapacitors, Electrochimica Acta, 2021, 370: 137758, https://doi.org/10.1016/j.electacta.2021.137758
[4]Luo, Zhangbin; Tao, Zengren; Li, Xinyu; Xu, Dandan; Xuan, Congxu; Wang, Zhun; Tang, Tao; Wen, Jianfeng; Li, Ming; Xiao, Jianrong, Ferroconcrete-Like Helical Carbon Nanotube/Reduced Graphene Oxide Heterostructure 3D Networks as Sulfur Hosts for High-Performance Li-S Batteries, Frontiers in energy research, 2020, 7: 157, https://doi.org/10.3389/fenrg.2019.00157
[5] Guo, Z.; Wu, H.; Li, M.; Tang, T.; Wen, J.; Li, X. Phosphorus-doped graphene quantum dots loaded on TiO2 for enhanced photodegradation. Appl. Surf. Sci. 2020, 526. https://doi.org/10.1016/j.apsusc.2020.146724.
[6] Xu, D. D.; Xuan, C. X.; Li, X. Y.; Luo, Z. B.; Wang, Z.; Tang, T.; Wen, J. F.; Li, M.; Xiao, J. R. Novel helical carbon nanotubes-embedded reduced graphene oxide in three-dimensional architecture for high-performance flexible supercapacitors. Electrochim. Acta 2020, 339, 9. https://doi.org/10.1016/j.electacta.2020.135912.
[7] Ke, W. G.; He, S. N.; Le, W. T.; Liu, Y.; Zhang, F. L.; Tang, T.; Zheng, Y. P.; Chen, J.; Chen, M. M.; Cao, D. W. Synthesis of nitrogen-superdoped and graphene fiber-supported three-dimensional graphene foam for supercapacitors. Journal of Materials Science 2020, 55, 6952-6962. https://doi.org/10.1007/s10853-020-04496-8.
[8] Tang, T.; Wu, L. T.; Gao, S. Q.; He, F.; Li, M.; Wen, J. F.; Li, X. Y.; Liu, F. C., Universal Effectiveness of Inducing Magnetic Moments in Graphene by Amino-Type sp3-Defects. Materials 2018, 11, 616.
[9] Li, X. Y.; Xu, Y. J.; Hu, G. H.; Luo, Z. B.; Xu, D. D.; Tang, T.; Wen, J. F.; Li, M.; Zhou, T. Y.; Cheng, Y., Self-assembled formation of conjugated 3D reduced graphene oxide-wrapped helical CNTs nanostructure and nitrogen-doped using photochemical doping for high-performance supercapacitor electrodes. Electrochim. Acta 2018, 280, 33-40.
[10] Luo, Y.; Li, M.; Hu, G. H.; Tang, T.; Wen, J. F.; Li, X. Y.; Wang, L., Enhanced photocatalytic activity of sulfur-doped graphene quantum dots decorated with TiO2 nanocomposites. Mater. Res. Bull. 2018, 97, 428-435.
[11]Xu, Y. J.; Feng, Y. K.; Li, X. Y.; Hu, G. J.; Luo, Y.; Sun, L.; Tang, T.; Wen, J. F.; Wang, H.; Li, M., Direct Formation of Reduced Graphene Oxide and Graphene Quantum dot Composites by Using Ascorbic Acid as High Performance Binder-Free Supercapacitor Electrodes. Int. J. Electrochem. Sci. 2017, 12, 8820-8831.
[12] Xu, Y. J.; Li, X. Y.; Hu, G. H.; Wu, T.; Luo, Y.; Sun, L.; Tang, T.; Wen, J. F.; Wang, H.; Li, M., Graphene oxide quantum dot-derived nitrogen-enriched hybrid graphene nanosheets by simple photochemical doping for high-performance supercapacitors. Appl. Surf. Sci. 2017, 422, 847-855.
[13] Sun, L.; Luo, Y.; Li, M.; Hu, G. H.; Xu, Y. J.; Tang, T.; Wen, J. F.; Li, X. Y.; Wang, L., Role of Pyridinic-N for Nitrogen-doped graphene quantum dots in oxygen reaction reduction. J. Colloid Interface Sci. 2017, 508, 154-158.
[14] Luo, Y.; Li, M.; Sun, L.; Xu, Y. J.; Hu, G. H.; Tang, T.; Wen, J. F.; Li, X. Y., Tuning the photoluminescence of graphene quantum dots by co-doping of nitrogen and sulfur. J. Nanopart. Res. 2017, 19, 9.
[15] Luo, Y.; Xu, Y. J.; Li, M.; Sun, L.; Hu, G. H.; Tang, T.; Wen, J. F.; Li, X. Y., Tuning the Photoluminescence of Graphene Quantum Dots by Fluorination. J. Nanomater. 2017, 9682846.
[16] Li, X. Y.; Tang, T.; Li, M.; He, X. C., Nitrogen-doped graphene films from simple photochemical doping for n-type field-effect transistors. Appl. Phys. Lett. 2015, 106, 5.
[17] He, X. C.; Tang, T.; Liu, F. C.; Tang, N. J.; Li, X. Y.; Du, Y. W., Photochemical doping of graphene oxide thin film with nitrogen for photoconductivity enhancement. Carbon 2015, 94, 1037-1043.
[18] Tang, T.; Tang, N. J.; Zheng, Y. P.; Wan, X. G.; Liu, Y.; Liu, F. C.; Xu, Q. H.; Du, Y. W., Robust magnetic moments on the basal plane of the graphene sheet effectively induced by OH groups. Sci. Rep. 2015, 5, 8448.
[19] Tang, T.; Liu, F. C.; Liu, Y.; Li, X. Y.; Xu, Q. H.; Feng, Q.; Tang, N. J.; Du, Y. W., Identifying the magnetic properties of graphene oxide. Appl. Phys. Lett. 2014, 104, 123104.
[20] Liu, F. C.; Tang, T.; Feng, Q.; Li, M.; Liu, Y.; Tang, N. J.; Zhong, W.; Du, Y. W., Tuning photoluminescence of reduced graphene oxide quantum dots from blue to purple. J. Appl. Phys. 2014, 115, 164307.
[21] Liu, F. C.; Tang, N. J.; Tang, T.; Liu, Y.; Feng, Q.; Zhong, W.; Du, Y. W., Photochemical doping of graphene oxide with nitrogen for photoluminescence enhancement. Appl. Phys. Lett. 2013, 103, 123108.
[22] 唐涛;李明;李新宇;文剑锋,一种水溶性石墨烯的制备方法(ZL201710844158.0,已授权),发明专利,中华人民共和国国家产权局,2017.
[23] 唐涛;汤怒江;都有为,一种具有高浓度耦合磁矩的大片状石墨烯的制备方法(CN201410712252.7,已授权),发明专利,中华人民共和国国家产权局,2014.
[24] 唐涛;文剑锋,一种超高氮掺杂的石墨烯的制备方法(CN201310198188.0,已授权),发明专利,中华人民共和国国家产权局,2013.
[25] 唐涛;李明,高氮掺杂的石墨烯轻质铁磁性材料的制备方法(CN201310198189.5,已授权),发明专利,中华人民共和国国家产权局,2013.
4、研究项目
[1] 新型有机铅卤化物钙钛矿的制备及其光学性能研究(2018GXNSFAA050014),12万元,主持,广西自然科学基金面上项目,2019.03-2022.02.
[2] 利用氟辅助调控石墨烯氮掺杂及其磁性(GLUTQD2002023),6万元,主持,桂林理工大学科研启动项目,2018.09—2021.04.
[3] 石墨烯基面上sp3畴分布的调控与磁性研究(11604061),23万元,主持,国家自然科学青年基金,2017.01—2019.12.
[4] 氮掺杂的羟基化石墨烯的制备及其磁耦合研究(2015GXNSFBA139002),5万元,主持,广西自然科学基金,2015.09—2018.08.