王迎威,毕业于中南大学,2017年毕业于中南大学物理学专业,主要研究方向二维材料非线性光学、生物光子学应用。已发表SCI论文20余篇,其中第一作者(含共同一作)文章10篇。2018年加入张晗教授课题组。
除石墨烯外新兴二维材料的纳米药物递送体系
科研寄语
科研工作在于兴趣,兴趣使然所带来的的动力将会驱使你不断深究问题,不断进步向前,不畏艰险勇攀高峰。
个人经历
【本科】2007-2011年 ,郑州航空工业管理学院
【硕博】2011-2017年 ,中南大学,物理与电子学院
【博后】2017年-至今 ,深圳大学
参与项目
1. 国家自然科学基金青年科学基金项目
“微区多层黑磷纳米片非线性光学表征及超快光子应用研究”,11904239,主持;
2. 中国博士后科学基金
“黑磷量子点基光纤激光器应用研究”,2017M620383,主持;
3. 深圳市科技计划项目基础研究(自由探索)项目
“黑磷量子点的非线性光学性质及在超快光子学上的应用研究”,主持;
论文情况
1. Jiefeng Liu, Yingwei Wang (co-first author), et al. A Robust 2D Photo-electro chemical Detector Based on NiPS3 Flakes. Advanced Electronic Materials, 2019, 1900726. (IF:6.31)
2.Yingwei Wang, Meng Qiu et al. Emerging 2D material-based nanocarrier for cancer therapy beyond graphene. Coordination Chemistry Reviews, 2019, 400, 213041. (IF:13.48)
3.Keqiang Chen, Yingwei Wang (co-first author), Jiefeng Liu et al. In situ preparation of CsPbBr3/black phosphorus heterostructure with optimized interface and photodetector application. Nanoscale, 2019, 11, 16852-16859. (IF:6.97)
4. Yingwei Wang (co-first author), Keqiang Chen, et al. Engineering ultrafast charge transfer in a bismuthene/perovskite nanohybrid. Nanoscale, 2019, 11, 2637-2643. (IF:6.97)
5. Yingwei Wang, Sheng. Liu, Bowen Zeng, et al. Ultraviolet saturable absorption and ultrafast carrier dynamics in ultrasmall black phosphorus quantum dots. Nanoscale, 2017, 9, 4683–4690. (IF: 6.97).
6. Yingwei Wang (co-first author), Sheng Liu, et al. Ultra-broadband Nonlinear Saturable Absorption for Two-dimensional Bi2TexSe3−x Nanosheets. Scientific Reports, 2016, 6:33070. (IF: 4.011)
7. Yingwei Wang, Haoran Mu, et al. Observation of large nonlinear responses in a graphene-Bi2Te3heterostructure at a telecommunication wavelength. Applied Physics Letters, 2016, 108:221901. (IF: 3.521)
8. Yingwei Wang, Guanghui Huang, Haoran Mu, et al. Ultrafast recovery time and broadband saturable absorption properties of black phosphorus suspension. Applied Physics Letters, 2015, 107: 091905. (IF: 3.521).
9.Liu Sheng, Yingwei Wang (co-first author), et al. The ultrafast tunable saturable absorption of metal complexes containing redox-active 1-(2-pyridylazo)-2- acenaphthequinol ligands. Optical Materials, 2017, 66:241-246. (IF: 2.687).