一、基本信息:
姓 名 | 周远良 | 性 别 | 男 | 民族 | 汉 | |
出生年月 | 1989.10 | 党政职务 | ||||
学历学位 | 博士 | 职 称 | ||||
研究方向 | 电磁波屏蔽与吸收 | |||||
主讲课程 | 理论力学 | |||||
二、学习工作经历:
1、学习经历:
(1) 2014-9至2020-6,大连理工大学,硕博连读,博士
(2) 2010-9至2014-6,贵州师范大学,学士
2、工作经历:
(1) 2022-7至现在,太阳成集团tyc9728,太阳成集团tyc9728,专任教师
(2) 2020-6至2022-6,深圳大学,信息与通信工程博士后流动站,博士后
三、主要研究项目、论文、知识产权、成果、获奖情况
教学质量工程项目:
科研项目:
1.铁磁合金/碳核壳纳米胶囊的异质结构调控与吸波机制研究. 2022年,安徽省教育厅自然科学研究重点项目,2022AH051090.(主持)
科研论文:
1. Yuanliang Zhou; Javid Muhammad; Xuefeng Zhang; Dongxing Wang; Yuping Duan; Xinglong Dong; Zhidong Zhang; Novel nanocapsules with Co-TiC twin cores and regulable graphitic shells for superior electromagnetic wave absorption; RSC Advances, 2018,8 (12): 6397-6405.
2. Yuanliang Zhou; Javid Muhammad; Tianhong Zhou; Dongxing Wang; Xin Wang; Yuping Duan; Xuefeng Zhang; Xinglong Dong; Zhidong Zhang; Incorporation of magnetic component to construct (TiC/Ni)@C ternary composite with heterogeneous interface for enhanced microwave absorption; Journal of Alloys and Compounds, 2018,778:779-86.
3. Yuanliang Zhou;Ning Wang; Javid Muhammad; Dongxing Wang; Yuping Duan; XuefengZhang; Xinglong Dong; Zhidong Zhang; Graphene nanoflakes with optimized nitrogen doping fabricated by arc discharge as highly efficient absorbers toward microwave absorption; Carbon, 2019,148: 204–213.
4. Yuanliang Zhou; Ning Wang; XinghaoQu; Feirong Huang; Yuping Duan; Xuefeng Zhang; Xinglong Dong; Zhidong Zhang; Arc-discharge synthesis of nitrogen-Doped C embedded TiCN nanocubes with tunable dielectric/magnetic properties for electromagnetic absorbing applications; Nanoscale, 2019, 11: 19994–20005
5. XinghaoQu#, Yuanliang Zhou#; Xiyang Li; Muhammad Javid; Feirong Huang; Xuefeng Zhang;Xinglong Dong; Zhidong Zhang; Nitrogen-doped graphene layer-encapsulated NiFebimetallic nanoparticles synthesized by an arc discharge method for a highly efficient microwave absorber, Inorganic Chemistry Frontiers, 2020, 7, 1148-1160 (共同一作)
6. Yuanliang Zhou; Min Wu; Jie Jiang; Peng Yang; Tingke Rao; Juin J. Liou; Wugang Liao; Self-assembling SiC nanoflakes/MXenes composites embedded in polymers towards efficient electromagnetic wave attenuation; Applied Surface Science, 2021, 574: 151463.