阮文清-深圳大学机电与控制工程学院

研究领域：

1、超声振动调控材料性能的机理与应用
2、非晶态材料微纳结构构建及其在电催化、水蒸发等领域的应用

教育背景：

2010.6-2016.5 厦门大学博士
2006.9-2010.6 厦门大学学士

工作履历：

2020.12–至今深圳大学副研究员
2016.6–2020.9 香港科技大学, 化学系、机械与航天工程系博士后

主持项目：

1、多孔多功能非晶合金的制备、调控与应用研究，国家自然科学基金青年基金项目，主持，30万
2、高性能非晶合金反射镜关键材料与器件研发及应用研究，广东省重点领域研发计划课题，主持，300万
3、用于饮用水消毒高效稳定催化剂及其专门化设备研发，横向项目，主持，100万元

代表期刊论文：

[1] J. Liu+, W. Ruan+, H. Zhang, J. Huang, J. Wang, J. Fu, F. Sun, L. Zhu, Y. Zhan, J. Ma*, Highly Efficient Porous Glass Solar Water Evaporator, Adv. Funct. Mater. 35 (2025) 1–12.
[2] S. Zeng+, W. Ruan+, Z. Chen, S. Ren, J. Jiang, J. Lin, H. Zhang, Z. Zhang, J. Fu, Q. Chen, X. Liang*, J. Ma*, Dissolution Manufacturing Strategy for the Facile Synthesis of Nanoporous Metallic Glass Multifunctional Catalyst, Small Methods 2401109 (2024) 1–12.
[3] J. Liu+, W. Ruan+, J. Fu, H. Zhang, S. Zeng, S. Ren, J. Ma*, Fabrication of porous metallic glass using a dissolution manufacturing strategy and their functional applications, Mater. Today Adv. 24 (2024) 100533.
[4] W. Ruan+, H. Zhang+, J. Fu*, Z. Li, J. Huang, Z. Liu, S. Zeng, Z. Chen, X. Li, Z. Yu, X. Liang, J. Ma*, Dissolution Manufacturing Strategy for Designing Efficient and Low Cost Polymeric Solar Water Evaporator, Adv. Funct. Mater. 34 (2024) 1–11.
[5] Z. Chen, S. Ren, R*. Zhao, J. Zhu, X. Li, H. Zhang, H. Lin, J. Zhu, S. Sohrabi, W. Ruan*, J. Ma*, Plasticity and rejuvenation of aged metallic glasses by ultrasonic vibrations, J. Mater. Sci. Technol. 181 (2024) 231–239.
[6] X. Liang, Z. Liu, J. Fu, H. Zhang, J. Huang, S. Ren, Z. Zhang, Q. Chen, Y. Xiao, W. Ruan*, J. Ma*, Dissolvable templates to prepare Pt-based porous metallic glass for the oxygen reduction reaction, Nanoscale 15 (2023) 6802–6811.
[7] Z. Chen, F. Sun, W. Wang, J. Chen, S. Ren*, W. Ruan*, J. Ma*, Improved wear resistance of metallic glacier glass, J. Non. Cryst. Solids 619 (2023) 122582.
[8] S. Huang, F. Sun, W. Ruan*, S. Ren, Z. Zhang, X. Liang, J. Ma*, Design of near-zero thermal expansion composites with superior mechanical properties in a wide temperature region, J. Mater. Res. Technol. 25 (2023) 2166–2176.
[9] W. Ruan, J. Mao, Q. Chen, Redox flow batteries toward more soluble anthraquinone derivatives, Curr. Opin. Electrochem. 29 (2021) 100748.
[10] W. Ruan, J. Mao, S. Yang, Q. Chen, Communication—Tris(bipyridyl)iron Complexes for High-Voltage Aqueous Redox Flow Batteries, J. Electrochem. Soc. 167 (2020) 100543.
[11] W. Ruan, T. Yang, C. Shi, W. Bai, H.H.Y. Sung, I.D. Williams, Z. Lin, G. Jia, Substituent Effect on the Reactions of OsCl2(PPh3)3 with o-Ethynylphenyl Carbonyl Compounds, Organometallics 39 (2020) 574–584.
[12] W. Ruan, J. Mao, S. Yang, C. Shi, G. Jia, Q. Chen*, Designing Cr complexes for a neutral Fe-Cr redox flow battery, Chem. Commun. 56 (2020) 3171–3174.
[13] W. Ruan, C. Shi, H.H.Y. Sung, I.D. Williams, G. Jia*, Synthesis and reactivity of platinum vinylcarbene complexes prepared from activation of propargyl alcohols, J. Organomet. Chem. 880 (2019) 7–14.
[14] W. Ruan, T.-F. Leung, C. Shi, K.H. Lee, H.H.Y. Sung, I.D. Williams, Z. Lin, G. Jia*, Facile synthesis of polycyclic metallaarynes, Chem. Sci. 9 (2018) 5994–5998.