姓名：周 阳

学位/职称：博士/副教授/硕导

学科专业：材料科学与工程/材料物理

联系方式：yangzhou1998@126.com

研究方向：（1）锂离子电池；（2）第一性原理；（3）电催化

主持承担科研项目：

[01] 江西理工大学“清江拔尖人才支持计划”项目

[02] 国家自然科学地区基金

替位型掺杂三氧化钨载铂催化剂的设计合成及其电催化性能研究

[03] 国家自然科学青年基金

通过原位还原碳化技术增强碳化钨的类铂电催化性能研究

[04] 江西省自然科学面上基金

离子液体条件下高纯净碳化钨纳米晶的类铂电催化性能研究

[05] 江西省青年科学基金

核壳结构碳化钨微球的制备及其类铂电催化性能研究

代表性研究论文：

[01] K. Li, Y. Zhou* et al. First-principles calculation on the lithium storage properties of high-entropy MXene Ti₃C₂(N_0.25O_0.25F_0.25S_0.25)₂. Dalton Transactions 2023, 52: 18323.

[02] K. Li, Y. Zhou* et al. First-principles insights into the performance of high-entropy MXene as the anode for lithium-ion batteries. Computational Materials Science 2023, 227: 112271.

[03] K. Li, Y. Zhou* et al. High-entropy MXene Ti₃(B_0.25C_0.25N_0.25O_0.25)₂O₂ as anode materials for lithium-ion batteries: Insight from first principles. Materials Today Communications 2024, 38: 108255

[04] K. Yuan, Y. Zhou* et al. A two-dimensional MXene/BN van der Waals heterostructure as an anode material for lithium-ion batteries. Physical Chemistry Chemical Physics 2022, 24: 13713.

[05] K. Yuan, Y. Zhou* et al. Experimental and computational studies on S-decorated Ti₃C₂ MXene as anode material in Li-ion batteries. Journal of Materials Science 2022, 57: 7001.

[06] P. Hao, Y. Zhou* et al. First-principles prediction of two-dimensional MXene (V₂C, Ti₂C, and Mo₂C) as the catalyst for ammonia decomposition. Materials Today Communications 2023, 35: 105969.

[07] L. Sun, Y. Zhou* et al. Selective ethane production from carbon dioxide enabled by Cu-Ga plates with large-scale manufacturing capability. Applied Surface Science 2023, 638: 158025.

[08] 李小林,  周 阳^*等. NH₃在TaC(0001)表面吸附和解离的第一性原理研究. 物理学报, 2022, 71: 017103.

[09] X. Rao, Y. Zhou* et al. First-principles insights into ammonia decomposition on WC (0001) surface terminated by W and C. Applied Surface Science 2021, 566: 150635.

[10] K. Yuan, Y. Zhou* et al. First-principles insights into ammonia decomposition on the MoN(0001) surface. New Journal of Chemistry 2021, 45: 15234.

[11] X. Li, Y. Zhou* et al. Bifunctional N-Doped Tungsten Trioxide Microspheres as Electrode Materials for Lithium-Ion Batteries and Direct Methanol Fuel Cells. Journal of Physical Chemistry C 2020, 124: 21261.

[12] Y. Zhou*, et al. Synergistic and durable Pt-WC catalyst for methanol electro-oxidation in ionic liquid aqueous solution. ACS Applied Energy Materials 2019, 02: 8459.

[13] Y. Zhou*, et al. Multi-functional graphene/carbon nanotube aerogels for its applications in supercapacitor and direct methanol fuel cell. Electrochimica Acta 2018, 264: 12.

[14] Y. Zhou*, et al. Three-dimensional crumpled graphene as an electro-catalyst support for formic acid electro-oxidation. Journal of Materials Chemistry A 2016, 04: 4587.

[15] Y. Zhou*, et al. Core–shell hierarchical WO₂/WO₃ microspheres as an electrocatalyst support for methanol electrooxidation. Chemical Communications 2015, 51: 15297.