田地 副教授

导师资格：硕士生导师

研究方向：静电纺多功能纳米材料 生物质基超级电容器电极材料

邮箱：13366023523@swfu.edu.cn

教育/工作经历

2023年-至今 西南林业大学，副教授

2021年-2023年 西南林业大学，讲师

2015年-2020年 吉林大学，获博士学位

2011年-2015年 西南林业大学，获学士学位

科研工作及成果

申报人近年来主要从事静电纺多功能纳米材料以及生物质基超级电容器电极材料研究。主持项目7项，参与项目8项；以第一或通讯作者在行业代表性的知名期刊发表论文8篇，其中，SCI收录TOP期刊5篇（中科院一区4篇）；参编英文论著1部；获云南省“兴滇英才支持计划”青年人才。

学术成果展示

1.代表性论文：

[1] D. Tian, X. Lu, Y. Zhu, M. Li, C. Wang, Fabrication of two-dimensional metal-organicframeworks on electrospun nanofibers and their derived metal doped carbon nanofibers for an advanced asymmetric supercapacitor with a high energy density, Journal of Power Sources, 2019, 413, 50.

[2] D. Tian, Y. Ao, W. Li, J. Xu, C. Wang, General fabrication of metal-organic frameworks on electrospun modified carbon nanofibers for high-performance asymmetric supercapacitors, Journal of Colloid and Interface Science, 2021, 603, 199-209.

[3] D. Tian, N. Song, M. Zhong, X. Lu, C. Wang, Bimetallic MOF nanosheets decorated onelectrospun nanofibers for high-performance asymmetric supercapacitors, ACS Applied Materials & Interfaces, 2020, 12, 1280.

[3] D. Tian, S. Chen, W. Zhu, C. Wang, X. Lu, Metal-organic framework derived hierarchical Ni/Ni₃S₂ decorated carbon nanofibers for high-performance supercapacitors, Materials Chemistry Frontiers, 2019, 3, 1653.

[5] D. Tian, C. Wang, X. Lu, Metal-organic frameworks and their derived functional materials for supercapacitor electrode application, Advanced Energy and Sustainability Research, 2021, 2, 2100024.

[6] D. Tian, X. Lu, G. Nie, M. Gao, C. Wang, Direct growth of Ni-Mn-O nanosheets on flexible electrospun carbon nanofibers for high performance supercapacitor applications, Inorganic Chemistry Frontiers, 2018, 5, 635-642.

[7] D. Tian, X. Lu, G. Nie, M. Gao, N. Song, C. Wang, Growth of polyaniline thorns on hybrid electrospun CNFs with nickel nanoparticles and graphene nanosheets as binder-free electrodes for high-performance supercapacitors, Applied Surface Science, 2018, 458, 389-396.

[8] D. Tian, X. Lu, W. Li, Y. Li, C. Wang, Research on Electrospun nanofiber-based binder-free electrode materials for supercapacitors, Acta Physico-Chimica Sinica, 2020, 36, 1904056.

[9] N. Song, S. Chen, D. Tian, Y. Li, C. Wang, X. Lu, Cu²⁺-doped polypyrrole nanotubes with promoted efficiency for peroxidase mimicking and electrochemical biosensing, Materials Today Chemistry, 2020, 18, 100374.

[10] S. Chen, S. Qiu, M. Zhong, D. Tian, C. Wang, X. Lu, Constructing magnetic Fe₃O₄-Au@CeO₂ hybrid nanofibers for selective catalytic degradation of organic dyes, Applied Organometallic Chemistry, 2019, 33, 5253.

[11] M. Gao, X. Lu, S. Chen, D. Tian, Y. Zhu, C. Wang, Enhanced peroxidase-like activity of Mo⁶⁺-doped Co₃O₄ nanotubes for ultrasensitive and colorimetric L‑cysteine detection, ACS Applied Nano Materials, 2018, 1, 4703-4715.

[12] M. Li, H. Wang, Y. Zhu, D. Tian, C. Wang, X. Lu, Mo/Mo₂C encapsulated in nitrogen-doped carbon nanofibers as efficiently integrated heterojunction electrocatalysts for hydrogen evolution reaction in wide pH range, Applied Surface Science, 2019, 496, 143672.

[13] 乜广弟, 朱云, 田地, 王策, 静电纺丝纳米纤维基超级电容器电极材料的研究进展, 高等学 校化学学报, 2018, 39, 1349-1363.

[14] X. Zhao, L. Sun, Z. Zhai, D. Tian, Y. Wang, X. Zou, C. Min, C. Zhuang, An ultrastable La-MOF for catalytic hydrogen transfer of furfural: in situ activation of surface, Nanoscale, 2023.

2.代表性论著：

[1] D. Tian, C. Wang and X. Lu, Supercapacitors based on electrospun metal oxide nanofibers, Metal Oxide-Based Nanofibers and Their Applications, Elsevier, 2021, 361-384.