姓名:张杰
电子邮箱:616439391@qq.com
基本情况:19880828,党员,副教授
研究方向:
低维体系电热输运的多尺度模拟以及金属氧化物选择性生长机理的理论研究
学习经历:2011-2016 武汉大学 博士
工作经历:
2018-至今 湖北大学 副教授
2016-2018 华中科技大学 博士后
代表性科研项目:
主持国家自然科学基金青年项目,中国博士后科学基金,作为技术骨干参与国家自然科学基金重大研究计划青年专项、国家自然科学基金重点项目等
代表性论文:
[1] Jie Zhang*, Minghao Zhan, Wending Wang, Xiaohong Xia, Yun Gao, Zhongbing Huang, Delocalized Ag-Ag dimer rattling mode contributes to reduced thermal conductivity and enhanced thermoelectric performance in AgAs2, Results in Physics 73 (2025) 108285.
[2] Jie Zhang, Li Zhou, Xiaohong Xia, Yun Gao, and Zhongbing Huang*, Occupied Outer Cationic Orbitals in Dimeric MX2-Type BaSe2 Compound Lead to Reduced Thermal Conductivity and High Thermoelectric Performance, Energy Environ. Mater. 2025, 8, e12799.
[3] Jie Zhang, Xiaohong Xia, Yun Gao, and Zhongbing Huang*, Remarkably Weakened Atomic Bonds from Dimeric Antibonding Hybridization and Enhanced Thermoelectric Performance of CdTe2, ACS Appl. Energy Mater. 2023, 6, 11385−11395.
[4] Jie Zhang, Dan He, Hailong Jiang, Xiaohong Xia*, Yun Gao*, and Zhongbing Huang*, Remarkable Thermoelectric Performance in K2CdPb Crystals with 1D Building Blocks via Structure Particularity and Bond Heterogeneity, ACS Appl. Energy Mater. 2022, 5, 5146−5158.
[5] Jie Zhang, Hailong Jiang, Xiaohong Xia*, Yun Gao*, and Zhongbing Huang*, Antibonding p-d and s-p Hybridization Induce the Optimization of Thermal and Thermoelectric Performance of MGeTe3 (M = In and Sb), ACS Appl. Energy Mater. 2022, 5, 12, 15566−15577.
[6] Jie Zhang, Dan He, Hailong Jiang, Xiaohong Xia, Yun Gao*, and Zhongbing Huang*, High Thermoelectric Performance Achieved in Bulk Selenium with Nanostructural Building Blocks, ACS Appl. Electron. Mater. 2021, 3, 3824−3834.
[7] Jie Zhang, Dan He, Xiaohong Xia, Yun Gao*, Zhongbing Huang*, High electrical transport performance and ultralow thermal conductivity realized in Ga doped single-layer octagon-square nitrogene, Applied Surface Science 563, 150244 (2021).
[8] Jie Zhang, Huijun Liu, Yun Gao*, Xiaohong Xia and Zhongbing Huang*, The sp2 character of new two-dimensional AsB with tunable electronic properties predicted by theoretical studies, Phys. Chem. Chem. Phys. 21, 20981−20987 (2019).
[9] J. Yang#, J. Zhang#(共一), X. Liu, X. Duan, Y. Wen, R. Chen and B. Shan*, Origin of the superior activity of surface doped SmMn2O5 mullites for NO oxidation: a first-principles based microkinetic study, Journal of Catalysis 359 (2018) 122−129.
[10] J. Cai#, J. Zhang#(共一), K. Cao*, M. Gong, Y. Lang, X. Liu, S. Chu, B. Shan, and R. Chen*, Selective Passivation of Pt Nanoparticles Toward CO Oxidation with Enhanced Sintering Resistance via Atomic Layer Deposition, ACS Applied Nano Materials 2018, 1, 522−530.
[11] Yanwei Wen#, Jiaming Cai#, Jie Zhang, Jiaqiang Yang, Lu Shi, Kun Cao, Rong Chen*, and Bin Shan*, Edge-Selective Growth of MCp2 (M = Fe, Co, and Ni) Precursors on Pt Nanoparticles in Atomic Layer Deposition: A Combined Theoretical and Experimental Study, Chemistry of Materials 31, 101−111 (2019).
[12] Jie Zhang, Xiaolin Liu, Yanwei Wen, Lu Shi, Rong Chen, Huijun Liu, and Bin Shan*, Titanium Trisulfide Monolayer as a Potential Thermoelectric Material: A First-Principles-Based Boltzmann Transport Study, ACS Applied Materials & Interfaces 9, 2509−2515 (2017).
[13] J. Zhang, H. J. Liu*, L. Cheng, J. Wei, J. H. Liang, D. D. Fan, P. H. Jiang, and J. Shi, Thermal conductivities of phosphorene allotropes from first-principles calculations: a comparative study, Scientific Reports 7, 4623 (2017).
[14] J. Zhang, H. J. Liu*, L. Cheng, J. Wei, J. H. Liang, D. D. Fan, P. H. Jiang, L. Sun, and J. Shi, High thermoelectric performance can be achieved in black phosphorus, Journal of Materials Chemistry C 4, 991 (2016).
