个人简介:
柯少秋,女,汉族,1994年6月出生,湖北师范大学材料科学与工程学院讲师。主要从事室温热电薄膜材料与器件的可控制备及其电热输运性能的研究。近年,在Advanced Materials、Energy & Environmental Science、Advanced Functional Materials、Journal of Materials Chemistry A、Materials Today Physics、ACS Applied Materials Interfaces等国际学术期刊上发表SCI论文20余篇,申请专利10余件。
教育/工作经历:
2024.07 – 至今 湖北师范大学 材料科学与工程学院 讲师
2020.09 – 2024.06 武汉理工大学 材料科学与工程 博士
2017.09 – 2019.12 广西大学 林业工程 硕士
2013.09 – 2017.06 海南大学 风景园林 学士
研究方向:
1. 热电材料:室温热电块体、薄膜材料与器件的可控制备及其电热输运性能的研究
2. 复合材料:生物质基储能材料与器件的可控制备
代表性论文:
1. Shaoqiu Ke, Xiaolei Nie, Ping Wei, Longzhou Li, Chengshan Liu, Wenjie Xu, Tiantian Chen, Dong Liang, Xianfeng Ye, Wanting Zhu, Danqi He, Mingrui Liu, Jianjun Ying, Yimin Chao, Wenyu Zhao*, Jing Shi, Xianhui Chen, Qingjie Zhang. Nanomagnetism triggering carriers double-resistance conduction and excellent flexible thermoelectrics. Advanced Materials. 2025, 37 (10): 2414511.
2. Shaoqiu Ke, Dong Liang, Xiaolei Nie*, Xiaoling Ai, Longzhou Li, Chengshan Liu, Wenjie Xu, Wenjun Cui, Xianfeng Ye, Tiantian Chen, Xiangyu Li, Kai Fu, Wanting Zhu, Ping Wei, Wenyu Zhao*, Qingjie Zhang. Multi-beam spark plasma sintering and excellent performance of Bi0.5Sb1.5Te3/epoxy thermoelectric films with insulating substrate. Energy & Environmental Science. 2023, 16, 5434-5443.
3.Shaoqiu Ke, Xiaolei Nie*, Xiaoling Ai, Xiangyu Li, Wenjie Xu, Kai Fu, Tiantian Chen, Chengshan Liu, Wanting Zhu, Ping Wei, Wenyu Zhao*, Qingjie Zhang. Magnetic ordering boost excellent thermoelectric performance of flexible films. Materials Today Physics, 2023, 101234.
4.Shaoqiu Ke, Tiantian Chen, Xiaolei Nie*, Xiaoling Ai, Tonglu Huan, Haojun Zhang, Longzhou Li, Wenjie Xu, Chengshan Liu, Wanting Zhu, Ping Wei, Danqi He, Wenyu Zhao*, Qingjie Zhang. Interlayer carrier high-speed conductive channel and excellent electrical transport performance of multilayer films. Journal of Materials Chemistry A. 2024, 12, 9787-9796.
5.Shaoqiu Ke, Xie Di, Kai Zhang, Fangchao Cheng*, Yiqiang Wu. Ultraflexible all-in-one supercapacitors with high capacitance and ultrastable cycle performance enabled by wood cellulose network [J]. Materials Advances, 2022, 3, 2026.
5. Shaoqiu Ke, Zhiqi Wang, Kai Zhang, Fangchao Cheng*, Jianping Sun, Nannan Wang*, Yanqiu Zhu. Flexible conductive cellulose network-based composite hydrogel for multifunctional supercapacitors [J]. Polymers, 2020, 12, 1369.