高涛涛

发布日期:2021-05-18    浏览次数:

 

高涛涛

博士,特聘研究员

gaotaotao@cdu.edu.cn


工作及教育经历

2023.07-至今      成都大学,高等研究院,特聘研究员

2020.07-2023.06    成都大学,高等研究院,特聘副研究员

2014.09-2019.12        四川大学,化学工程学院,应用化学,工学博士

2010.09-2014.06        重庆工商大学,环境与生物工程学院,应用化学,工学学士

研究方向

1.金属/碳异质结构纳米材料的制备及其在电催化反应中的应用研究:包括碳包覆及碳负载催化材料低成本、可控制备方法的开发及其电解水催化机理研究。

2.新型电解水耦合反应系统的设计和环境污染物的绿色回收及资源化利用:包括利用氧化电势较低的小分子氧化反应与析氢反应耦合超低能耗制氢并获得高附加值产物;基于电化学方法实现硝酸根污染物制氨、电芬顿高效降解有机污染物等。

科研项目

  1. 四川省科自然科学基金面上项目,2024.1-2025.12,主持

  2. 四川省高校重点实验室开放课题,2023.5-2025.5,主持

  3. 福建省重点实验室开放课题,2022.11-2024.10,主持

  4. 成都大学人才引进启动项目,2020.07-2023.06,主持

  5. 中央高校基本科研业务费(四川大学研究生科研创新基金),2017.12-2018.12,主持

学术任职

担任Advanced MaterialsACS Applied Nano MaterialsNew Journal of ChemistryCarbon Neutrality等期刊审稿人。

近期代表性论文

1Gao T., Tang X., Li X., Wu S., Yu S., Li P.*, Xiao D.*, Jin Z.*. Understanding the Atomic and Defective Interface Effect on Ruthenium Clusters for the Hydrogen Evolution Reaction. ACS Catal., 2023, 13, 49-59. (IF = 12.9中科院一区,封面文章,ESI热点、高被引论文)

2Gao T., Qiu L., Xie M., Jin Z., Li P.*, Yu G.*. Defect-stabilized and oxygen-coordinated iron single-atom sites facilitate hydrogen peroxide electrosynthesis. Mater. Horiz., 2023, 10, 4270-4277. (IF = 13.3中科院一区)

3. Gao T., Yu S., Chen Y Li X., Tang X., Wu S., He B., Lan H., Li S.*, Yue Q.*, Xiao D.*. Regulating the thickness of the carbon coating layer in iron/carbon heterostructures to enhance the catalytic performance for oxygen evolution reaction. J. Colloid Interf. Sci., 2023, 642, 120-128. (IF = 9.9,中科院一区)

4. Tang X., Zhang Y., Wu F., Li B., Wang J., Li X., Rao R., Hu J,* Xiao D.,* Gao T.*. Mo-doped cobaltous sulfide nanosheet arrays as efficient catalysts for the sulfion oxidation reaction promoting hydrogen production with ultra-low electric energy consumption. Inorg. Chem. Front., 2023, 10, 6728-6737. (IF = 7.0中科院一区)

5. Li R., Gao T.*, Wang P., Qiu W., Liu K., Liu Y., Jin Z., Li P.*. The origin of selective nitrate-to-ammonia electroreduction on metal-free nitrogen-doped carbon aerogel catalysts. Appl. Catal. B-Environ, 2023, 331, 122677. (IF = 22.1中科院一区)

6. Gao T., Tang X., Li X., Lan H., Yu S., Wu S., Yue Q.*, Xiao D.*. Surface reconstructing hierarchical structures as robust sulfion oxidation catalysts to produce hydrogen with ultralow energy consumption. Inorg. Chem. Front., 2023, 10, 1447-1456. (IF = 7.0中科院一区,2023 Inorganic Chemistry Frontiers热点论文)

7. He B.1, Wu S.1, Zhao Q.*, Yan M., Tang X., Yu S., Yang L., Xu Y., Gao T.*, Xiao D.*. Utilizing the cross-linked effect and reconstruction strategy of phytic acid to build Fe-Co-Ni trimetallic amorphous carbon-matrix compounds as efficient oxygen evolution catalyst. J. Colloid Interf. Sci., 2023, 629, 1003-1014. (IF = 9.9中科院一区)

8. Lan H.1, Yang Y.1, Wu Y., Liu M., Li F., Wang F., Cui X.*, Gao T.*. Ruthenium nanoparticles loaded on N/P co-doped carbon sphere derived from sphere cross-linked hydrogel for highly improved hydrogen evolution reaction. Fuel, 2023, 341, 126996. (IF = 7.4中科院一区)

9. Gao T.*, Wu S., Li X., Lin C., Yue Q., Tang X., Yu S., Xiao D.*. Phytic acid assisted ultra-fast in situ construction of Ni foam-supported amorphous Ni-Fe phytates to enhance catalytic performance for the oxygen evolution reaction. Inorg. Chem. Front., 2022, 9, 3598-3608. (IF = 7.0中科院一区)

10. Gao T., Li X., Chen X., Zhou C., Yue Q., Yuan H., Xiao D.*. Ultra-fast preparing carbon nanotube-supported trimetallic Ni, Ru, Fe heterostructures as robust bifunctional electrocatalysts for overall water splitting. Chem. Eng. J., 2021, 424, 130416. (IF = 15.1中科院一区)