孙梓雄,1990年,中共党员、(工学)博士(后)、副教授。主要研究方向为电子信息功能材料与器件,包括能量存储材料与器件、能量转换材料与器件、微电子材料与器件。主持国家自然基金一项、主持bv伟德源自英国始于1946高水平博士科研计划一项;参与国家自然基金重大项目子课题一项、参与国家“973”计划项目子课题一项、参与欧盟NOW项目一项、参与陕西省科技厅项目一项。迄今为止共发表高水平学术论文50篇,其中作为以第一作者/通讯作者30篇;总被引次数为1052次;其中他引次数998次;总影响因子超过400;h-index为16。(Scopus数据:https://www.scopus.com/authid/detail.uri?authorId=55868570100)
教育与工作经历:
2023.08~2024.01:荷兰特文特大学(University of Twente),助理研究员(Assistant Research Fellow);
2021.08~2023.07:荷兰特文特大学(University of Twente),博士后研究员(Post-Doctor Fellow);
2019.04~今:bv伟德源自英国始于1946,电子科学与技术,副教授;
2015.09~2019.03:西安交通大学,电子科学与技术,工学博士;
2012.09~2015.06:bv伟德源自英国始于1946,材料工程,工程硕士;
2008.09~2012.06:bv伟德源自英国始于1946,材料物理,学士。
代表性论文(第一/通讯作者):
【1】Sun Zixiong, Ma Chunrui, Liu Ming*, Cui Jin, Lu Lu, Lu Jiangbo, Lou Xiaojie, Jin Lei, Wang Hong*, Jia Chun-Lin, Ultrahigh Energy Storage Performance of Lead‐Free Oxide Multilayer Film Capacitors via Interface Engineering, Advanced Materials, 2017, 29, 1604427.(影响因子:29.4,ESI高被引论文,顶级期刊,Nature Index全球自然指数杂志)。
【2】Sun Zixiong*, Wei Hansong, Zhao Shibo, Guo Qing, Bai Yuhan, Wang Siting, Sun Peiyao, Du Kang, Ning Yating, Tian Ye, Zhang Xiaohua, Jing Hongmei, Pu Yongping, Zhang Sufeng*, Utilizing the synergistic effect between the Schottky barrier and field redistribution to achieve high-density, low-consumption, cellulose-based flexible dielectric films for next-generation green energy storage capacitors, Journal of Materials Chemistry A, 2024,12, 128-143.(影响因子:11.9,能源领域旗舰类杂志,封面论文(如下))。
【3】Sun Zixiong*, Liu Jiaqi, Wei Hansong, Guo Qing, Bai Yuhan, Zhao Shibo, Wang Siting, Li Lei, Tian Ye, Zhang Xiaohua, Jing Hongmei, Pu Yongping, Zhang Sufeng*, Ultrahigh energy storage capacity in multilayer-structured cellulose-based dielectric capacitors caused by interfacial polarization-coupled Schottky barrier height, Journal of Materials Chemistry A, 2023,11, 20089-20101.(影响因子:11.9,能源领域旗舰类杂志)。
【4】Sun Zixiong, Wang Linxi, Liu Ming*, Ma Chunrui, Liang Zhongshuai, Fan Qiaolan, Lu Lu, Lou Xiaojie, Wang Hong, Jia Chun-Lin, Interface Thickness Optimization of Leadfree Oxide Multilayer Capacitors for High performance Energy Storage, Journal of Materials Chemistry A, 2018, 6, 1858-1864.(影响因子:11.9,能源领域旗舰类杂志)。
【5】Sun Zixiong*, Wang Siting, Zhao Shibo, Wei Hansong, Shen Guodong, Pu Yongping, Zhang Sufeng*, Achieving low-consumption bio-based piezoelectric nanogenerator via modulating inner layer thickness for highly sensitive pedometer, Journal of Materials Chemistry C, 2024, DOI: 10.1039/D3TC03904H.(影响因子:6.4,电子器件领域旗舰类杂志)。
【6】Sun Zixiong, Ma Chunrui, Wang Xi, Liu Ming*, Lu Lu, Wu Ming, Lou Xiaojie, Wang Hong, Jia Chun-Lin, Large Energy Density, Excellent Thermal Stability, and High Cycling Endurance of Lead-Free BaZr0.2Ti0.8O3 Film Capacitors, ACS Applied Materials & Interfaces, 2017, 9, 17097-17102.(影响因子:9.6)。
【7】Sun Zixiong*, Wang Zhuo, Tian Ye, Wang Ge*, Wang Wen, Yang Mengdie, Wang Xiaoying, Zhang Fanghui, Pu Yongping*, Progress, Outlook and Challenges in Lead-Free Energy Storage Ferroelectrics, Advanced Electronic Materials, 2019, 1900698.(影响因子:6.2,综述论文, ESI高被引论文)
【8】Sun Zixiong*, Bai Yuhan, Liu Jiaqi, Jian Gang*, Guo Chen, Zhang Lei, Pu Yongping*, Interface engineering in ferroelectrics: From films to bulks, J Alloy. Compd. 2022, 909, 164735.(影响因子:6.2,综述论文)
【9】Sun Zixiong*, Yuhan Bai, Tao Ouyang, Qing Guo, Yating Ning, Jiaqi Liu, Hansong Wei, Kang Du, Hongmei Jing*, Ye Tian, Yongping Pu*, Achieving ultrahigh energy storage density in super relaxor BCZT-based lead-free capacitors through multiphase coexistence, Appl. Phys. Lett. 2023, 122, 263904. (影响因子:4.0,Nature Index全球自然指数杂志)
【10】Sun Zixiong*, Tian Xiaoxia*, Shang Lin, Hao Xiaodong, Wang Guixiang, Shi Yu, Pu Yongping, Modifying Energy Storage Performance of New Lead-Free System Ferroelectric Capacitors through Interfacial Stress, Applied Surface Science, 2021, 559, 149992(影响因子:6.4)
【11】Sun Zixiong*, Huang Sizhao, Zhu Wenxuan, Yorick A. Birkhölzer, Gao Xing, Romar Angelo Avila, Huang Houbing*, Lou Xiaojie, Evert P. Houwman, Minh D. Nguyen*, Gertjan Koster, Guus Rijnders*, Structure evolution of the interfacial layer of BaTiO3 thin films during annealing process and related good resistive switching behaviors, APL Materials. 2023, 11, 101129.(影响因子:6.3)
代表性论文(共同通讯作者):
【1】Peng Xin, Pu Yongping*, Du Xinyi, Ji Jiamin, Gao Pan, Zhang Lei, Sun Zixiong*, Tailoring of ferroelectrics in (Na2O, K2O)-Nb2O5-SiO2 glass-ceramics via control the crystallization kinetics, Chemical Engineering Journal, 2021, 422, 130027(影响因子:15.1)
【2】Zhang Sufeng*, Luo Jin, Zhang Fengjiao, Du Min, Hui Hongying, Zhao Fuxuan, He Xinning, Sun Zixiong*, A porous, mechanically strong and thermally stable zeolitic imidazolate framework-8@bacterial cellulose/aramid nanofibers composite separator for advanced lithium-ion batteries, J Membrane. Sci. 2022, 652, 120461.(影响因子:8.9)
【3】Zhang Sufeng*, Liu Jiaqi, Guo Qing, Wei Ning, Ning Yating, Bai Yuhan, Tian Ye, Wang Tong, Sun Zixiong*, Pu Yongping, Fabrication of cellulose-based dielectric nanocomposite film with excellent energy storage performance via codissolution-regeneration method, Compos Part A-Appl S. 2023, 165, 107329.(影响因子:8.5)
【4】Zhang Sufeng*, Wei Hansong, Guo Qing, Liu Jiaqi, Wei Ning, Bai Yuhan, Sun Peiyao, Li Lei, Zhang Yutao, Tian Ye, Zhang Xiaohua, Sun Zixiong*, Pu Yongping, Excellent energy storage performance with outstanding thermal stability assisted by interfacial resistance of aramid-based flexible paper capacitors, Applied Surface Science, 2023, 640, 158363(影响因子:6.4)
【5】Zhang Sufeng*, Luo Jin, Du Min, Hui Hongying, Sun Zixiong*, Safety and cycling stability enhancement of cellulose paper-based lithium-ion battery separator by aramid nanofibers, Eur. Polym. J 2022, 171, 111222.(影响因子:6.0)
【6】Li, Run, Pu, Yongping*, Zhang, Qianwen, Wang, Wang Wen, Li Jingwei, Du Xinyi, Chen Min, Zhang Xian, Sun Zixiong*, The relationship between enhanced dielectric property and structural distortion in Ca doped Ba2NaNb5O15 tungsten bronze ceramics, Journal of the European Ceramics Society, 2020, 40, 4509-4516. (影响因子:5.7)
主持科研项目:
[1] 基于自组装异质结构铁电薄膜宽温储能特性增强的机理研究,国家自然基金,No. 52002234,24万。
[2] 界面工程对铁电材料储能特性的影响,bv伟德源自英国始于1946高水平博士计划项目,No. 2019BJ-21,20万。
[3] 纤维素基可降解柔性储能材料的结构设计与性能优化, 陕西省轻化工助剂化学与技术协同创新中心开放课题,KFKT-09,1万。
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