教育经历:
2016-09—2021-09,西安交通大学,材料科学与工程,博士(解云川教授)
2012-09—2016-07,西安交通大学,应用化学,学士(张志成教授)
工作经历:
2022/06—,永利集团,304am永利集团,教师
2021/09—2022/03,中国航天科技集团第四研究院,预研
研究领域:
1. 储能复合材料及其柔性储能薄膜材料器件
2. 无机陶瓷与有机高分子聚合物的合成、功能化改性与制备
3. 压电、铁电性能及介电储能机理研究;材料仿真模拟计算研究
讲授课程:
1. 大学化学
2. 工程制图与AutoCAD
3. 大学物理实验
4. 新能源前沿讲座/材料前沿讲座
荣誉与奖励:
学术之星(2021);姚熹铁电奖学金(2020);激智特等奖学金(2019);中化蓝天杯学术竞赛优秀奖、二等奖(2018、2019);全国介电高分子复合会议优秀报告奖(2019);国家级大创项目优秀奖(2016);“腾飞杯”课外学术竞赛优秀奖(2015);西安交通大学优秀研究生;西安交通大学研究学业奖学金;思源奖学金;宁夏自然科学论文2等奖
学术成果:
[发明专利]:
1 .解云川,张志成,王健。一种复合材料制备方法及复合材料.专利号:CN201910265499.1
2. 解云川,张志成,王健。具有自交联特性的PVDF基复合电介质及其制备方法.专利号:CN201810179694
3. 解云川,张志成,谭少博,王健,刘晶晶.一种复合电介质材料的制备方法及复合电介质材料. CN201811325527.6
4. 梁森,崔景贺,王健,蒋权伟,王林.基于VO2薄膜的温度传感器及其制备方法. CN202211369289
[项目信息]:
1.宁夏自然科学基金项目,2023AAC03104,PVDF基复合电介质材料的结构设计及其储能性能研究,主持。
2.国家级老员工创新项目,PVDF中C-F键的活化及其功能化改性,主持。
3.腾飞杯学术竞赛项目,PVF膜的介电,压电,铁电性能的研究,主持
[代表性论文]:
[1] J. Wang, S. Liang, J. Xiong, et al. High energy density nanocomposites with layered gradient structure and lysozyme-modified Ba0.6Sr0.4TiO3nanoparticles.Compos. Part A-Appl. S., 163(2022) 107254.
[2] J. Wang, Y. Xie*, Y. Zhang, et al. Ultrahighdischarge efficiency and energy density of P(VDF-HFP) via electrospinning-hot press with St-MMA copolymer.Mater. Chem. Front, 5(2021) 3436.
[3] J. Wang, Y. Xie*, J. Liu, et al. Towards high efficient nanodielectrics from linear ferroelectricP(VDF-TrFE-CTFE)-g-PMMA matrix and exfoliated mica nanosheets.Appl. Surf. Sci., 469 (2019) 437-445.
[4] J. Wang, Y. Xie *, J. Liu, et al. Improved energy storage performance of linear dielectric polymer nanodielectrics with polydopamine coated BN nanosheets.Polymers, 10 (2018) 1349.
[5] J. Wang, Z. Li, Y. Yan, et al. Improving ferro- and piezo-electric properties of hydrogenised poly(vinylidene fluoride-trifluoroethylene) films by annealing at elevated temperature.Chinese J. Polym. Sci., 34 (2016) 649-658.
[6] J. Wang, Y. Xie*, Y. Zhang, et al. High energy efficiency nanodielectrics with relaxor ferroelectric polymer and antiferroelectric PLZST ceramics.IET Nanodielectrics, 4 (2021) 171-178.
[7] Y. Xie,J. Wang, Y. Yu, et al. Enhancing breakdown strength and energy storage performance of PVDF-based nanocomposites by adding exfoliated boron nitride.Appl. Surf. Sci., 440 (2018) 1150-1158.
[8] Y. Xie,J. Wang,S, Tan, et al. Improving energy storage density and efficiency of polymer dielectrics by adding trace biomimetic lysozyme-modified boron nitride.ACS Appl. Energy Mater.. 3(2020) 7952-7963.
[9] P.Ma,ZZhang,J. Wang, Self-Assembled 2D VS2/Ti3C2Tx MXenenanostructures with ultrafast kinetics for superior electrochemical sodium-ion storage,Adv. Sci.(2023) 202304465.
[10] X. Xing, Y Zhang, X. Zhang,J. Wang, Healable ablative composites from synergistically crosslinked phenolic resin,Chem. Eng. J.447(2022) 137571.
[11] B.Peng,J. Wang, M Li, et al. Activation of different C-F bond in fluoropolymers for Cu(0) mediated single electron transfer radical polymerization[J].Polym. Chem., 12(2021)3132-3141,
[12] W.W. Zhang,J. Wang, P. Gao, et al. Synthesis of poly(vinylidene fluoride-trifluoroethylene) via a controlled silyl radical reduction of poly(vinylidene fluoride-chlorotrifluoroethylene).J. Mater. Chem. C., 5(2017). 6433-6441
[13] C. Chen, Y.C. Xie,J. Wang,et al. Enhancing high field dielectric properties of polymer films by wrapping a thin layer of self-assembled boron nitride film.Appl. Surf. Sci., 440 (2020) 1150-1158.
[14] Z. Li,J. Wang, X. Wang, et al. Ferro- and piezo-electric properties of a poly(vinyl fluoride) film with high ferro- to para-electric phase transition temperature.RSC Adv., 5 (2015) 80950-80955.
[15] Y. Zhang, S. Tan,J. Wang, et al. Regulating dielectric and ferroelectric properties of poly(vinylidene fluoride-trifluoroethylene) with inner CH=CH bonds.Polymers, 10(2018), 339.