Basic Information

  

周  垚  教授(博导)

西安交通大学 电气工程学院

国家级高层次青年人才

西安交通大学青年拔尖人才(A类)

      

Enrollment Information

1. 每年可招收博士研究生1-2名、硕士研究生2-4名以及本科生若干名,

2. 欢迎具有电气、材料、化学、物理、化工等专业背景的学生咨询报考,

3. 欢迎具有电介质材料研究背景的青年学者加入,纳入西安交通大学青年优秀人才支持计划,优秀者推荐学校青年拔尖人才支持计划。

Contact Information

邮箱:zhouyao@xjtu.edu.cn

电话:15201519869

地址:西安交通大学电气工程学院

站点计数器

Education and Working Experience

2023.06 - 今             西安交通大学    电气工程学院        教授

2019.08 - 2023.06    美国宾夕法尼亚州立大学            博士后(导师:王   庆 教授)

2014.09 - 2019.07    清华大学           电机系                  博士(导师:何金良 教授)

2010.08 - 2014.07    清华大学           电机系                  学士

Research Fields

1. 高温储能电介质材料与器件

2. 高性能环保型电工材料及装备

3. 柔性铁电压电材料及其能量转换

Honorary Title

国家级高层次青年人才计划 2023

IEEE青年学者成就奖(IEEE Steven A. Boggs Young Professional Achievement Award) (2024

中国新锐科技人物创新贡献奖 (2023)

西安交通大学“青年拔尖人才支持计划”A类 (2023

美国宾州州立大学博士后优秀研究奖(Postdoctoral Excellence in Research Award) (2023)

High Voltage期刊年度优秀论文奖 (2021)

全国发明展览会发明创业奖项目奖金奖2项 (2021)

Representative Publications

NatureNature MaterialsNature CommunicationsChemical ReviewsChemical Society ReviewsAdvanced Materials 等期刊发表SCI论文60余篇,出版英文专著章节2章。代表性论文如下(#共同第一作者,*通讯作者):

[1] Jie Chen#, Yao Zhou#, Xingyi Huang#*, Chunyang Yu, Donglin Han, Ao Wang, Yingke Zhu, Kunming Shi, Qi Kang, Pengli Li, Pingkai Jiang, Xiaoshi Qian, Hua Bao, Shengtao Li, Guangning Wu, Xinyuan Zhu, Qing Wang*, Ladderphane copolymers for high-temperature capacitive energy storage, Nature, 615(7950), 62-66, 2023. (IF: 69.5)

[2] Yang Liu#*, Yao Zhou#, Hancheng Qin, Tiannan Yang, Xin Chen, Li Li, Zhubing Han, Ke Wang, Bing Zhang, Wenchang Lu, Long-Qing Chen, J. Bernholc, Qing Wang*, Electro-thermal actuation in percolative ferroelectric polymer nanocomposites, Nature Materials, 22, 873-879, 2023. (IF: 47.7, Research Briefing)

[3] Yao Zhou, Li Li, Zhubing Han, Qi Li*, Jinliang He, Qing Wang*, Self-healing polymers for electronics and energy devicesChemical Reviews, 123(2), 558-612, 2023. (IF: 72.1, Cover Article)

[4] Yao Zhou, Yujie Zhu, Wenhan Xu, Qing Wang*, Molecular trap engineering enables superior high-temperature capacitive energy storage performance in all-organic composite at 200 °C, Advanced Energy Materials, 2203961, 2023. (IF: 29.7)

[5] He Li#, Yao Zhou#, Yang Liu, Li Li, Yi Liu*, Qing Wang*, Dielectric polymers for high-temperature capacitive energy storage. Chemical Society Reviews, 50(11), 6369-6400, 2021. (IF: 60.6, Cover Article)

[6] Yao Zhou#, Chao Yuan#, Shaojie Wang, Yujie Zhu, Sang Cheng, Xiao Yang, Yang Yang, Jun Hu, Jinliang He*, Qi Li*, Interface-modulated nanocomposites based on polypropylene for high-temperature energy storage, Energy Storage Materials, 28, 255-263, 2020. (IF: 20.8)

[7] Chao Yuan, Yao Zhou, Yujie Zhu, Jiajie Liang, Shaojie Wang, Simin Peng, Yushu Li, Sang Cheng, Mingcong Yang, Jun Hu, Bo Zhang, Rong Zeng, Jinliang He*, Qi Li*, Polymer/molecular semiconductor all-organic composites for high-temperature dielectric energy storage, Nature Communications, 11, 3919, 2020. (IF: 14.9, Editors' Highlight)

[8] Yao Zhou, Qi Li*, Bin Dang, Yang Yang, Tao Shao, He Li, Jun Hu, Rong Zeng, Jinliang He*, Qing Wang*, A scalable, high‐throughput, and environmentally benign approach to polymer dielectrics exhibiting significantly improved capacitive performance at high temperatures, Advanced Materials, 30(49), 1805672, 2018. (IF: 32.1, Frontispiece Article)