研究领域/方向

1.电化学CO2还原催化电极制备及研究

2.电解水析氢催化电极制备与研究

3.耐磨超疏水涂层

教育及工作经历

教师简介

杜晓晔博士于2022年12月加入西安交通大学材料学院表面室宋忠孝教授团队，担任助理教授。博士毕业于西安交通大学材料学院，曾在首尔国立大学材料系进行博士生交流访学。

杜晓晔博士长期致力于物理气相沉积功能薄膜的研究工作，在电催化析氢及二氧化碳还原方面取得一定的研究成果。共发表SCI论文16余篇，其中以第一/通讯作者在Nano Energy、Adv. Funct. Mater.、Chem. Eng. J.、J. Mater. Chem. A、J. Colloid Interface Sci.等发表论文10篇。物理沉积用于催化薄膜可控构筑，主要对表面价态和能带结构、异质结表界面结构及缺陷进行分析，在电化学测试系统中评估催化电极的固有催化活性和可靠性，研究多相催化电化学界面和反应机理。

Dr Xiaoye Du joined Prof. Zhongxiao Song's team in the Surface Centre, School of Materials, Xi'an Jiaotong University in December 2022 as an Assistant Professor. She received her PhD from the School of Materials, Xi'an Jiaotong University, and had a PhD visit at the Department of Materials, Seoul National University.

Dr Du Xiaoye has been working on physical vapour deposition of functional films for a long time, and has achieved some research results in electrocatalytic hydrogen evolution and carbon dioxide reduction. She has published 16 SCI papers, including 10 papers in Nano Energy, Adv. Funct. Mater, Chem. Eng. J., J. Mater. Chem. A, J. Colloid Interface Sci. etc. as the first/corresponding author. Physical vapour deposition for controllable construction of catalytic films, mainly analysing surface valence and energy band structures, surface/interface structure of heterojunctions, assessing the intrinsic catalytic activity and reliability of catalytic electrodes in electrochemical test systems, and investigating multiphase catalytic electrochemical interfaces and reaction mechanisms.

代表成果

科研项目

陕西省自然科学基础研究计划青年项目，2024.01-2025.12，5万元，主持，在研

陕西省博士后科研项目资助，2024.01-2025.12，5万元，主持，在研

学术成果

1. Xiaoye Du, Bo Gao, Chunhui Xiao, Shujiang Ding, Zhongxiao Song, Ki Tae Nam, Promoting hydrophilic cupric oxide electrochemical carbon dioxide reduction to methanol via interfacial engineering modulation. Journal of Colloid And Interface Science. 662, 893-902 (2024).

2. Yixuan Yang, Heng Fu, Chunhui Xiao, Xiaoye Du, Zhongxiao Song, Efficient electrochemical CO2 reduction to C2+ hydrocarbons on Zn-doped Cu films. Applied Surface Science. 646, 158866 (2024). (Corresponding author)

3. Xiaoye Du, Heng Fu, Bo Gao, Chunhui Xiao, Shujiang Ding, Dan Qian, Zhongxiao Song, Ki Tae Nam, Tuning the selectivity of CO2 electroreduction on Cu/In2O3 heterogeneous interface. Nano Energy. 12, 120 (2023).

4. Bo Gao, Yiwei Zhao, Xiaoye Du, Dan Qian, Shujiang Ding, Chunhui Xiao, Jin Wang, Zhongxiao Song, Ho Won Jang, Modulating Trinary-Heterostructure of MoS2 viaControllably Carbon Doping for Enhanced Electrocatalytic Hydrogen Evolution Reaction. Advanced Functional Materials. 33, 2214085 (2023).

5. Xiaoye Du, Yanyang Qin, Bo Gao, Jun Ho Jang, Chunhui Xiao, Yanhuai Li, Shujiang Ding, Zhongxiao Song, Yaqiong Su, Ki Tae Nam, A Sn doped, strained CuAg film for electrochemical CO2 reduction. Journal of Materials Chemistry A. 10, 7082-7089 (2022).

6. Bo Gao, Xiaoye Du, Yiwei Zhao, Woo Seok Cheon, Shujiang Ding, Chunhui Xiao, Zhongxiao Song, Ho Won Jang, Electron strain-driven phase transformation in transition-metal-co doped MoTe2 for electrocatalytic hydrogen evolution. Chemical Engineering Journal. 433, 133768 (2022).

7. Xiaoye Du, Yanyang Qin, Bo Gao, Ke Wang, Dan Li, Yanhuai Li, Shujiang Ding, Zhongxiao Song, Yaqiong Su, Chunhui Xiao, Plasma-assisted and oxygen vacancy-engineered In2O3 films forenhanced electrochemical reduction of CO2. Applied Surface Science. 563, 150405 (2021).

8. Xiaoye Du, Bo Gao, Yanhuai Li, Zhongxiao Song, Super-robust and anti-corrosive NiCrN hydrophobic coating fabricated by multi-arc ion plating. Applied Surface Science. 511, 145653-145653 (2020).

9. Xiaoye Du, Bo Gao, Yanhuai Li, Zhongxiao Song, Xiaodong Zhu, Jian Chen, Fabrication of multiscale structured hydrophobic NiCrZrN coating with high abrasion resistance using multi-arc ion plating. Journal of Alloys and Compounds. 812, 152140 (2020).

10. Bo Gao, Xiaoye Du, Yanhuai Li, Shuheng Wei, Xiaodong Zhu, Zhongxiao Song, Effect of deposition temperature on Hydrophobic CrN/AlTiN nanolaminate composites deposited by Multi-Arc-Ion Plating. Journal of Alloys and Compounds. 797, 1-9 (2019).