王赛-凯发ag旗舰厅

当前位置：凯发ag旗舰厅师资队伍教师风采金属材料工程专业

王赛

职称：讲师 email：saiwang23@163.com 研究方向：(1) 离子电池电极材料 (2) 纳米材料制备与复合技术

ø 个人简介

拥有十余年储能电池电极材料研发经验，在纳米材料合成、电化学机理及超低温电池设计等领域取得多项创新成果。作为第一作者或通讯作者发表sci论文10篇（含共同通讯1篇），以第一发明人获授权国家发明专利1项。论文总被引1480次，h指数为16。

ø 教育经历

(1) 2013-9至2018-12，吉林大学，材料学，博士（硕博连读）

(2) 2008-9至2012-7，辽宁科技大学，冶金工程，学士

ø 工作经历

(1) 2019-3至现在，沈阳航空航天大学，材料科学与工程学院，讲师

(2) 2012-4至2019-3，中国科学院长春应用化学研究所，稀土资源利用国家重点实验室，项目聘用人员

ø 研究方向

(1) 新型电池技术

(2) 新能源储能材料

ø 授课情况

(1) 《材料科学基础》(必修课，66学时)

(2) 《能源材料与器件》(必修课，32学时)

ø 承担科研项目情况

(1) 沈阳市科技局，社会治理科技专项，24-213-3-28 (在研)

(2) 辽宁省教育厅，自主选题项目(面上项目)，lj212510143028 (在研)

(3) 辽宁省科技厅，博士启动项目，2020-bs-173 (结题)

(4) 辽宁省教育厅，青年科技人才“育苗”项目，jyt19041 （优秀结题）

ø 代表性论著

(1) sai wang*,chunzhong liu, jiayu liang, zhanshuo li, wanzhu nie. dysprosium-doped molybdenum oxide nano-ceramic with impressive performances for zinc metal-free zinc-ion batteries. j. eur. ceram. soc. 2025, 45, 117712 (中科院1区，影响因子6.2).

(2) sai wang*, dongxun liu, yiming gao, jiayu liang, rongyu zhang*, xu yang. zinc ion storage abilities of mo₃wo_x nano-ceramic under extreme-cold environments. electrochim. acta, 2024, 483, 144073 (中科院2区，影响因子5.6).

(3) sai wang, xin-bo zhang*. n-doped c@zn₃b₂o₆ as low cost and environmental friendly anode material for na-ion batteries: high performance and new reaction mechanism. adv. mater., 2019, 31, 1805432 (中科院1区, top，影响因子26.8).

(4) sai wang*, shaowei lu, xu yang*, xingmin liu. pseudocapacitive moo_x anode material with super-high rate and ultra-long cycle properties for aqueous zinc ion batteries. j. electroanal. chem., 2021, 882, 115033.

(5) sai wang*, zhenwei huang, xingmin liu*, xu yang*, rongyu zhang. monoclinic moo_x anode material synthesized by a facile n‑methylpyrrolidone‑assisted wet‑chemical method for rechargeable aqueous zinc ion batteries. ionics, 2022, 28, 4283.

(6) sai wang, yun-hai zhu, jun-min yan*, xin-bo zhang. p3-type k_0.32fe_0.35mn_0.65o₂•0.39h₂o: a promising cathode for na-ion full batteries. j. mater. chem. a, 2018, 6, 13075.

(7) sai wang, tao sun, shuang yuan, yun-hai zhu, xin-bo zhang, jun-min yan*, qing jiang. p3-type k_0.33co_0.53mn_0.47o₂•0.39h₂o: a novel bifunctional electrode for na-ion batteries. mater. horiz., 2017, 4, 1122.

(8) sai wang, shuang yuan, yan-bin yin, yun-hai zhu, xin-bo zhang, jun-min yan*. green and facile fabrication of mwnts@sb₂s₃@ppy coaxial nanocables for high-performance na-ion batteries. part. part. syst. charact., 2016, 33, 493.

(9) rongyu zhang, shifeng xu, liyan wang, chuanyun wang, yongjun zhou, zhe lü, wenbo li, dan xu*, sai wang*（共同通讯）, xu yang*. theoretical study on ion diﬀusion mechanism in w‑doped k₃sbs₄ as solid-state electrolyte for k‑ion batteries. inorg. chem.,2024, 63, 6743.

(10) ying liu（学生）, sai wang*, zhenwei huang, xu yang, rongyu zhang, xingmin liu*, shaowei lu*, xingchen ma. recent advances and promise of zinc-ion energy storage devices based on mxenes. j. mater. sci., 2022, 57, 13817.

ø 授权发明专利

(1) 王赛;卢少微;王晓强;张璐;一种水系锌离子电池负极及其制备方法和电池,2022-12-27,中国,cn202010310261.9(授权专利).

(2) 张蓉瑜;杨旭;王赛;徐丹;杨姝;一种锂电池负极材料去磁装置, 2022-04-19,中国,cn202011248705.7(授权专利).