王鵬飛(博士)檢視原始碼討論檢視歷史
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王鵬飛,男,福州大學機械工程及自動化學院副教授。
人物簡歷
2020/08-至今,福州大學,機械工程及自動化學院,副教授
2015/09-2020/06,清華大學,物理系,博士
2011/09-2015/07,東北大學,理學院應用物理系,本科
研究方向
1、新型光電探測器件
2、新體制光學成像
4、微納光學
科研項目
1、福建省教育廳中青年教師教育科研項目,2020/12-2023/05
2、福州大學引進人才科研啟動項目,2021/01-2023/12
學術成果
學術論文
1、Wang P., Hu Q., Lv B., Liu Y., Yin J. and Sun J. Oxidized eutectic gallium–indium (EGaIn) nanoparticles for broadband light response in a graphene-based photodetector. Materials Advances, 2021,2(13), 4414-4422. (SCI收錄)
2、Huang F., Ren H., Shen Y. andWang P.*Error analysis and optimization for Risley-prism imaging distortion correction. Applied Optics, 2021,60(9), 2574-2582. (SCI收錄)
3、Wang P., Zheng T., Xu X. and Sun J. Optically monitored process and mechanism of electric-field-induced phase transition in VO2thin film. Crystals, 2020, 736-736.(SCI收錄)
4、Wang, P. F., Liu, Y., Yin, J., Ma, W. et al. A tunable positive and negative photoconductive photodetector based on a gold/graphene/p-type silicon heterojunction. Journal of Materials Chemistry C, 2019, 7(4), 887-896. (SCI收錄)
5、Wang, P. F., Yin, J., Hu, Q., Lv, B. et al. Gate-tunable ion-electron hybrid phototransistor based on graphene/RbAg4I5 composite. Journal of Materials Chemistry C, 2019, 13253-13260. (SCI收錄)
6、Wang P., Hu, Q., Lv B., Yin J. et al. Facile fabrication of eutectic gallium-indium alloy nanostructure and application in photodetection. Nanotechnology, 2019, 145703. (SCI收錄)
7、Wang, P. F., Liu, Y., Yin, J., Ma, W. et al. Self-assembled gold micro/nanostructure arrays based on superionic conductor RbAg4I5 films. Nanotechnology, 2018, 30, 025602. (SCI收錄)
8、Hu,Q.,Wang P., Yin J., Liu Y. et al. High-Responsivity Photodetector Based on a Suspended Monolayer Graphene/RbAg4I5 Composite Nanostructure. ACS applied materials & interfaces, 2020, 50763-50771. (SCI收錄)
9、Yin, J.,Wang, P., Liu, Y., Ma, W. et al. Optical modulation of charge transport in layered graphene system by superionic conductor RbAg4I5. Advanced Materials Interfaces, 2019, 1900094. (SCI收錄)
10、Sang, J.,Wang, P., Meng, Y., Xu, X. et al. Simple method preparation ultrathin VO2 thin film and control: nanoparticle morphology and optical transmittance. Japanese Journal of Applied Physics. 2019, 050917. (SCI收錄)
11、Wen, J., Niu, Y.,Wang, P., Chen, M., et al. Ultra-broad self-powered reduced graphene oxide photodetectors with annealing temperature-dependent responsivity. Carbon. 2019, 274-284. (SCI收錄)
12、Yin, J., Cong, L., Liu, Y.,Wang, P.et al. Superionic Modulation of Polymethylmethacrylate-Assisted Suspended Few-Layer Graphene Nanocomposites for High-Performance Photodetectors. ACS applied materials & interfaces, 2019, 11, 7600. (SCI收錄)
13、Liu, Y., Yin, J.,Wang, P., Hu, Q. et al. High-performance, ultra-broadband, ultraviolet to terahertz photodetectors based on suspended carbon nanotube films. ACS applied materials & interfaces, 2018, 10, 36304-36311. (SCI收錄)
14、Liu, Y., Yin, J.,Wang, P., Zhu, J. L. et al. Broadband photoresponse based on a synergistic effect of surface ions and plasmon polaritons. Journal of Materials Chemistry C,2018, 6, 1199-1205. (SCI收錄)
15、Jia, N., Wang, S.,Wang, P., Li, C. et al. Ultrasensitive photodetectors based on a high-quality LiInSe2 single crystal. Journal of Materials Chemistry C, 2018, 6, 12615-12622. (SCI收錄)[1]