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陶林

【个人简介】

陶林,男,汉族,199211月生,辽宁营口人,20217月参加工作,20136月加入中国共产党,必发7790电子集团入口首页冶金工程专业毕业,研究生学历,工学博士学位。现任必发7790电子集团入口首页化学工程学院储能系教师,硕士生导师,系党支部书记。以第一/通讯作者在《ACS Applied Materials & Interfaces》、《ACS Sensors》、《Journal of Materials Chemistry A》等国际知名期刊上发表论文10余篇,3IF>10,入选ESI1%高被引论文8次。作为骨干成员参与国家自然科学基金项目3项,主持1项。获辽宁省优秀博士学位论文、校园先锋示范岗等荣誉称号。

电子邮箱taolin@ustl.edu.cn

科研领域二氧化碳能源化转化、传感器设计及器件模拟

主讲课程:基础物理化学》、《传热传质学》

荣誉情况:

2022年辽宁省优秀博士学位论文;

2023年第六届全国大学生冶金科技竞赛二等奖(指导教师);

2023年必发7790电子集团入口首页校园先锋示范岗;

2023年度校级考核优秀;

兼职情况:中国化学会会员;中国石油科技创新基金/国家自然科学基金通讯评审Anal Chim Acta, Appl Water Sci, Ceram Int, Comput Theor Chem, Fuel, JOM, Mater Today Chem, PCCP, Sensor Actuat A/B等期刊审稿人

所在团队:辽宁省能源材料与电化学重点实验室

链接:/nyclydhxsys/

学术论文

[1] X.T. Yin*, L. Tao, Fabrication and gas sensing properties of Au-loaded SnO2 composite nanoparticles for low concentration hydrogen, Journal of Alloys and Compounds, 727 (2017) 254-259. (ESI1%高被引)

[2] L. Tao, Z. Li, G.C. Wang, B.Y. Cui, X.T. Yin*, Q. Wang*, Evolution of calcite surface reconstruction and interface adsorption of calcite-CO2 with temperature, Materials Research Express, 6 (2018) 025035.

[3] L. Tao, J. Huang, X. Yin*, Q. Wang*, Z. Li, G. Wang, B. Cui, Adsorption Kinetics of CO2 on a Reconstructed Calcite Surface: An Experiment-Simulation Collaborative Method, Energy & Fuels, 33 (2019) 8946-8953.

[4] L. Tao, J. Huang, D. Dastan, T. Wang, J. Li, X. Yin*, Q. Wang*, CO2 capture and separation on charge-modulated calcite, Applied Surface Science, 530 (2020) 147265.

[5] L. Tao, J. Huang, D. Dastan, T. Wang, J. Li, X. Yin*, Q. Wang*, New insight into absorption characteristics of CO2 on the surface of calcite, dolomite, and magnesite, Applied Surface Science, 540 (2021) 148320. (ESI1%高被引)

[6] L. Tao, J. Huang, D. Dastan, J. Li, X. Yin*, Q. Wang*, Flue gas separation at organic-inorganic interface under geological conditions, Surfaces and Interfaces, 27 (2021) 101462.

[7] Y. He, J. Li*, L. Tao*, S. Nie, T. Fang, X. Yin, Q. Wang, First-principles calculations on the resistance and electronic properties of H2 adsorption on a CoO-SnO2 heterojunction surface, Physical Chemistry Chemical Physics, 24 (2021) 392-402.

[8] D. Dastan, K. shan, A. Jafari, T. Marszalek, M.K.A. Mohammed, L. Tao* et al., Influence of heat treatment on H2S gas sensing features of NiO thin films deposited via thermal evaporation technique, Materials Science in Semiconductor Processing, 154 (2023) 107232. (ESI1%高被引)

[9] L. Tao, D. Dastan, W. Wang, P. Poldorn, X. Meng, M. Wu, H. Zhao, H. Zhang, L. Li, B. An*, Metal-Decorated InN Monolayer Senses N2 against CO2, ACS Applied Materials & Interfaces, 15 (2023) 12534-12544. (ESI1%高被引)

[10] Y. He, L. Tao*, J. Li*, M. Wu, P. Poldorn, D. Dastan, S. Abbasi, S. Nie, X. Yin, Q. Wang, Atomic-level insights into selective adsorption of H2 and CO on SnO2/CoO heterojunctions, Materials Today Nano, 22 (2023) 100334.

[11] S. Nie, J. Li*, L. Tao*, Y. He, D. Dastan, X. Meng, P. Poldorn, X. Yin, Insights into Selective Mechanism of NiO-TiO2 Heterojunction to H2 and CO, ACS Sensors, 8 (2023) 4121-4131.

[12] S. Nie, L. Tao*, J. Li*, W. Wang, P. Poldorn, Y. He, X. Yin, M. Wu*, A single response to reducing gases by NiO-TiO2 heterojunction nanocrystals, Applied Surface Science, 644 (2024) 158821.

[13] S. Guan, L. Tao, P. Tang, R. Fang, H. Wu, N. Piao, H. Yang, G. Hu, X. Geng, L. Li, B. An*, F. Li*, Regulating interfacial chemistry and kinetic behaviors of F/Mo co-doping Ni-rich layered oxide cathode for long-cycling lithium-ion batteries over −20 °C 60 °C, Journal of Energy Chemistry, 94 (2024) 449-457.

[14] M. Gu, L. Tao*, D. Dastan, J. Dang, T. Fang, B. An, Metal-Modified C3N1 Monolayer Sensors for Battery Instability Monitoring, Journal of Materials Chemistry A, (2024). DOI: 10.1039/d4ta00645c.

[15] Y. Sun, L. Tao*, M. Wu, D. Dastan, J. Rehman, L. Li, B. An, Multi-atomic Loaded C2N1 Catalysts for CO2 Reduction to CO or Formic Acid, Nanoscale, (2024). DOI: 10.1039/d4nr01082e. (Nanocatalysis主题集邀请文章)

备注:*代表通讯作者     (2024年4月更新)

Scholar Homepage: https://www.researchgate.net/profile/Lin-Tao-15

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【科研项目】

<在研>

[1] 辽宁省教育厅-青年项目(LJKQZ20222324),2023-2025,主持;

[2] 必发7790电子集团入口首页-优秀青年项目(2023YQ11),2023-2025,主持;

[3] 国家自然科学基金-青年项目(52304330),2024-2026,主持;

<结题>

[1] 国家自然科学基金-重点项目(51634004),2017-2021,子课题负责;

[2] 国家自然科学基金-面上项目(51874169),2019-2022,参与;

[3] 国家自然科学基金-面上项目(51974157),2020-2023,参与;

【招生信息】

欢迎勤奋好学、性格开朗,具有材料/化学/物理/AI等专业背景的研究生加入,共同探索创新。欢迎本科生参加科研能力提升计划。所在团队已与国内外多所著名科研机构和大学建立良好关系,支持在读学生申请交流和访问。