出生年月：1994年生，博士

办公地址：S4实验楼-401

电 话：178-6682-5590

电子邮箱：itengfeizhang@163.com

个人简介

2024年毕业于中国科学院过程工程研究所，随后进入山东科技大学化学与生物工程学院工作，研究方向为热催化过程将煤化工行业排放高浓度CO₂转化为天然气（CH₄），通过系统地对热催化剂进行性能优化与设计改良，解决了活性位结构不稳定和催化机制理解不足的问题。通过精确控制活性位的结构和调整催化表面的动态反应环境，成功提升了催化效率。作为第一/通讯作者在SCI学术期刊上已发表15篇，以及作为共同第一作者发表3篇SCI论文。参与国家重点研发计划1项，国家自然科学基金项目2项，开放基金3项。申请发明专利1项。

◎个人经历

2024/10-至今，山东科技大学，化工学院/低碳能源化工实验室，学术教授

2021年09月04日- 2024年07月05日 中国科学院大学，化学工程，博士；

2018年09月02日- 2021年07月01日 山东科技大学，化学工程，硕士；

2018年02月07日- 2018年08月17日 浙江鹏孚隆新材料有限公司，研发员

2013年09月01日- 2017年07月01日 吉林化工学院，应用化学，本科；

◎招生专业

  （硕士）化学工程与技术、材料与化工、能源动力等

◎荣誉及奖励

1. 山东科技大学菁英计划A类人才，2024

◎发表论文

[1] T. Zhang, P. Zheng, J. Gao, X. Liu, Y. Ji, J. Tian , Y. Zou, Z. Sun, Q. Hu, G. Chen, W. Chen, X. Liu, Z. Zhong, G. Xu, T. Zhu, and F. Su, Simultaneously activating molecular oxygen and surface lattice oxygen on multifunctional Pt/TiO₂ at low temperatures for CO oxidation, 15 (2024) 6842 Nature Communications

[2] T. Zhang, P. Zheng, J. Gao, Z. Han, F. Gu, W. Xu, F. Wang, T. Zhu, G. Xu, Z. Zhong, and F. Su, Self-dispersed bimetallic NiRu nanoparticles on CeO₂ for CO₂ methanation, 481 (2024) 148548. Chemical Engineering Journal

[3] T. Zhang, P. Zheng, J. Gao, Z. Han, F. Gu, W. Xu, L. Li, T. Zhu, Z. Zhong, G. Xu, and F. Su, Single-atom Ru alloyed with Ni nanoparticles boosts CO₂ methanation, 20 (2024) 2308193. Small

[4] T. Zhang, J. Tian, Y. Zhou, J. Zeng, X. Sun, Z. Gong, Enhanced CO₂ methanation over LaNiO₃/CeO₂ derivative catalyst with high activity and stability, 71 (2024) 1081–1089 International Journal of Hydrogen Energy

[5] W. Bi, Q. Guo, T. Zhang, Y. He, Q. Liu, Facile synthesis of Ni-phyllosilicate assisted by polyacrylamide at room temperature for CO₂ hydrogenation to methane,  71 (2024) 81-87 International Journal of Hydrogen Energy (通讯作者)

[6] W. Bi, T. Zhang, Q. Liu, Yan He, P. Liang, Interface-controlled synthesis of nickel phyllosilicate for efficient CO₂ hydrogenation to methane: Breaking the conventional silica-surface-controlled synthesis, 380 (2025) 133131  Fuel (共一)

[7] T. Zhang, P. Zheng, F. Gu, W. Xu, W. Chen, T. Zhu, Y-F. Han, G. Xu, Z. Zhong, and F. Su, The dual-active-site tandem catalyst containing Ru single atoms and Ni nanoparticles boosts CO₂ methanation, 323 (2023) 122190. Applied Catalysis B: Environmental

[8] T. Zhang, F. He, J. Zhang, and F. Gu, Ultrathin NiZrAl layered double hydroxide nanosheets derived catalyst for enhanced CO₂ methanation, 48 (2023) 5940-5952. International Journal of Hydrogen Energy

[9] T. Zhang, W. Wang, F. Gu, W. Xu, J. Zhang, Z. Li, T. Zhu, G. Xu, Z. Zhong, and F. Su, Enhancing the low-temperature CO₂ methanation over Ni/La-CeO₂ catalyst: the effects of surface oxygen vacancy and basic site on the catalytic performance, 312 (2022) 121385. Applied Catalysis B: Environmental

[10] T. Zhang, Q. Liu, Lanthanum-modified MCF-derived nickel phyllosilicate catalyst for enhanced CO2 methanation: A comprehensive study, 12 (2020) 19587‒19600. ACS Applied Materials & Interfaces

[11] T. Zhang, M. Li, P. Zheng, J. Li, J. Gao, Z. Zhong, D. Bai, G. Xu, and F. Su, Highly efficient hydrosilylation of ethyne over Pt/ZrO₂ catalysts with size-dependent metal-support interaction, 51 (2022) 18703‒18711. Industrial & Engineering Chemistry Research

[12] T. Zhang, Q. Liu, Mesostructured cellular foam silica supported bimetallic LaNi_1-xCoxO₃ catalyst for CO₂ methanation, 45 (2020) 4417‒4426. International Journal of Hydrogen Energy

[13] T. Zhang, Z. Tian, Q. Liu, Three-dimensional flower-like nickel phyllosilicates for CO₂ methanation: Enhanced catalytic activity and high stability, 4 (2020), 3438–3449. Sustainable Energy & Fuels

[14] T. Zhang, Q. Liu, Perovskite LaNiO₃ nanocrystals inside mesostructured cellular foam silica: High catalytic activity and stability for CO₂ methanation, 8 (2020) 1901164. Energy Technology

[15] T. Zhang, H. Ai, Q. Liu, La₂O₃-promoted Ni/Al₂O₃ catalyst for CO methanation: Enhanced catalytic activity and stability, 7 (2019) 1900531 Energy Technology

[16] Y. Zhang, T. Zhang, F. Wang, Q. Zhu, Q. Liu, Ni/CeO₂ catalysts for low-temperature CO2 methanation: Identifying effect of support morphology and oxygen vacancy, (2021) 1‒12. Greenhouse Gases: Science and Technology (共一)

[17] H. Yang, T. Zhang, Q. Liu, Eggshell waste as an eco-friendly and low-cost catalyst for the synthesis of α, β-unsaturated compounds, 101 (2020) 456‒462. Toxicological & Environmental Chemistry (共一)

[18] T. Zhang, W. Zhang, H. Dong, Q. Liu, H₃PW₁₂O₄₀ anchored on the three-dimensional and networked SBA-15 as an efficient and recyclable catalyst for mannich reaction, 64 (2019) 1‒13. Journal of the Mexican Chemical Society

◎讲授课程

《应用流体力学》