阮钦钦

电子邮箱：ruanqinqin@xatu.edu.cn

办公地址：西安工业大学未央校区教五楼211

研究领域（方向）：

有机（准）固态电解质

科研情况简介：

参与科技部重点研发计划催化专项课题、自然科学基金区域创新发展联合基金重点等3项项目，在Energy Storage Materials、Nano Energy、Advanced Energy Materials等国际期刊上发表学术论文9篇，总引用超过530余次。

教育经历：

2020-2025，工学博士，中国科学院过程工程研究所，化学工程

2016-2020，工学学士，太原理工大学，矿物加工工程

工作履历：

2025-至今，西安工业大学新能源科学与技术研究院

学术兼职：

无

科研项目：

      1.中国科学院国际伙伴计划，3D打印高比能固态锂电池研究，2022-2023（参与）

      2.科技部重点研发计划催化专项课题，高压双盐电解液构筑及正负极双界面协同调控，2023-2025（参与）

      3.自然科学基金区域创新发展联合基金重点，离子凝胶电解质多尺度结构调控及固态电池研究，2024-2025（参与）

代表性学术论文：

1.Ruan Q Q, Yao M, Lu J F, Wang Y L, Kong J, Zhang H T*, Zhang S J*. Mortise tenon joints reinforced Janus composite solid-state electrolyte with fast kinetics for high-voltage lithium metal battery [J]. Energy Storage Materials, 2023, 54: 294-303.

2.Ruan Q Q, Yao M, Yuan D, Dong H T, Liu J X, Yuan X D, Fang W H, Zhao G Y, Zhang H T*. Ionic liquid crystal electrolytes: fundamental, applications and prospects [J]. Nano Energy, 2023, 106: 108087.

3.Ruan Q Q, Yao M, Luo S J, Zhang W, Bae C J, Wei Z W, Zhang H T*. A gradient "ceramic-in-ionogel" electrolyte with tidal ion flow for ultra-stable lithium metal batteries [J]. Nano Energy, 2023, 113: 108571.

4.Yao M, Ruan Q Q, Pan S S, Zhang H T*, Zhang S J*. An ultrathin asymmetric solid polymer electrolyte with intensified ion transport regulated by biomimetic channels enabling wide-temperature high-voltage lithium-metal battery [J]. Advanced Energy Materials, 2023, 13(12): 2203640.

5.Yao M, Ruan Q Q, Yu T H, Zhang H T*, Zhang S J*. Solid polymer electrolyte with in-situ generated fast Li⁺ conducting network enable high voltage and dendrite-free lithium metal battery [J]. Energy Storage Materials, 2022, 44: 93-103.

6.Yao M, Ruan Q Q, Wang Y Y, Du L Y, Li Q G, Xu L, Wang R J, Zhang H T*. A robust dual-polymer@inorganic networks composite polymer electrolyte toward ultra long-life and high-voltage Li/Li-rich metal battery [J]. Advanced Functional Materials, 2023, 33(18): 2213702.

7.Zhu Y L, Li W, Zhang L, Fang W H, Ruan Q Q, Li J, Zhang F J, Zhang H T*, Quan T*, Zhang S J*. Electrode/electrolyte interphases in high-temperature batteries: a review [J]. Energy & Environmental Science, 2023, 16(7): 2825-2855.

8.Yao M, Yu T H, Ruan Q Q, Chen Q J, Zhang H T*, Zhang S J*. High-voltage and wide-temperature lithium metal batteries enabled by ultrathin MOF-derived solid polymer electrolytes with modulated ion transport [J]. ACS Applied Materials & Interfaces, 2021, 13(39): 47163-47173.

9.Wan Z X, Liu Z Q, Xiao Y Y, Ruan Q Q, Wang Q, Zhang H T, Yao M*, Zhang Y*. Self-oxidated hybrid conductive network enables efficient electrochemical lithium extraction under high-altitude environment [J]. Small, 2025, 21(3): 2406607.