王宁 副教授
个人介绍:
王宁,副教授,2005年获得英国政府海外研究生奖学金(ORSAS),毕业于英国salford大学物理系,曾先后就职于南方科技大学电子与电气工程系教学工程师,香港城市大学博士后研究员、香港科技大学助理研究员。研究方向包括增材制造与薄膜应用、微纳增材制造电子薄膜材料和器件的自限制组装实现光/电子功能器件(如储存器、传感器、能源器件)、纳米结构与生物应用等。
教育背景:
2005.10-2010.01 University of Salford UK,Physics department,博士
2001.09-2004.06 北京工业大学,材料科学与工程学院,硕士
1997.09-2001.06 中南大学,材料科学与工程学院,学士
工作经历:
2022.12-至今 深圳技术大学,新材料与新能源学院,副教授
2018.01-2022.11 深圳技术大学,新材料与新能源学院,助理教授
2016.05-2017.12 南方科技大学,电子与电气工程系,教学工程师
2012.04-2016.05 香港科技大学,Physics department, 助理研究员
2004.07-2005.08 北京有色金属研究总院 助理工程师
主要荣誉:
• 深圳高层次人才
• 第十二届深圳创新创业大赛三等奖(坪山赛区)
• 2021数字中国创新大赛智慧医疗赛道华南及港澳赛区决赛,三等奖
研究方向:
1. 利用微纳增材制造电子薄膜材料和器件的自限制组装实现光/电子功能器件(如储存器、传感器、LED等)的制造;
2. 对打印件表面处理及功能化改性的技术开发、打印结构的设计以及适用于增材制造的新材料成分设计和成形工艺的探索;
3. 微纳3D打印设备的开发。
科研项目:
1. 多孔石墨烯适体芯片研发;
2. 活细胞3D打印关键技术;
3. 3D打印β型医用钛合金的表面微纳结构构建后的腐蚀机制;
4. 基于金属增材制造的高效换热器创新设计、制造与应用研究。
代表论文:
1. Cai, H. Y.#, Ma, J. F.#, Wang, N.*, et al. (2022). Investigation on hydrogen evolution reaction performance of porous electrode prepared by laser powder bed fusion. Renewable Energy, 185, 771-778. (IF=8.001)
2. Wang, D. W., Wang, N.*, Yan M.*, et al. (2022) A review and a statistical analysis of porosity in metals additively manufactured by laser powder bed fusion. Opto-Electronic Advances. (IF=9.682)
3. Li, W. P., Wang, H., Wang, N.*, et al. (2022). Yttrium for the selective laser melting of Ti-45Al-8Nb intermetallic: Powder surface structure, laser absorptivity, and printability. Journal of Alloys and Compounds, 892, 161970. (IF=5.316)
4. Chen, Z., Wang N.*, Ma L.*, An, H.*, et al. (2021). Magnon Torque Transferred into a Magnetic Insulator through an Antiferromagnetic Insulator. Nanomaterials, 11(11), 2766. (IF=5.076)
5. Chen, Z., Wang N.*, An, H.* et al. (2021). Current-induced magnetization switching in a chemically disordered A1 CoPt single layer. Applied Physics Express, 14(3), 033002. (IF=2.895)
6. Ye, Z., Wang N., An, H.* et al. (2022). Spin‐Orbit Torque and Interfacial Dzyaloshinskii–Moriya Interaction in Heavy Metal/Ferrimagnetic Insulator Deposited by Magnetron Sputtering. Advanced Electronic Materials, 8(1), 2100590. (IF=7.295)
7. Dong, Y. P., Wang, N., Yan, M.* et al. (2020). Additive manufacturing of pure Ti with superior mechanical performance, low cost, and biocompatibility for potential replacement of Ti-6Al-4V. Materials & Design, 196, 109142. (IF=6.289)
8. Li, N. N., Qiu, M. X., & Wang, N.* (2018). Temperature dependence of magnetic properties of ultrathin Fe thin films on GaAs substrates. Journal of Alloys and Compounds, 747, 250-254. (IF=5.316)
9. Li, N., & Wang, N.* (2018). The effect of duplex Surface mechanical attrition and nitriding treatment on corrosion resistance of stainless steel 316L. Scientific Reports, 8(1), 1-7. (IF=3.998)
10. Wang, N., Wang, H., Lin, X., Qi, Y., Duan, T., Jiang, L., ... & Yu, H. (2017). Investigation of AlGaN/GaN HEMTs degradation with gate pulse stressing at cryogenic temperature. AIP Advances, 7(9), 095317. (IF=1.337)
11. Wang, N., Wang, X. L., Qin, W., Yeung, S. H., Kwok, D. T. K., Wong, H. F., ... & Ruotolo, A. (2011). Multiple-mode excitation in spin-transfer nanocontacts with dynamic polarizer. Applied Physics Letters, 98(24), 242506. (IF=3.597)
12. Wang, N., Wang, X. L., & Ruotolo, A. (2011). A magnetic flower state-based memory cell. IEEE transactions on magnetics, 47(7), 1970-1973. (IF=1.700)
13. Wang, N., Wang, X. L., Kwok, D. T., & Ruotolo, A. (2011). Three-mode behavior of spin-transfer vortex oscillators with dynamic polarizer. IEEE transactions on magnetics, 47(10), 3704-3707. (IF=1.700)
14. Wang, N., Zhang, J., Wang, C., & Shen, T. H. (2010). A study on phase relations and texture of Co1− xPtx (0.09< x< 0.86) nanowire arrays. Materials Letters, 64(22), 2530-2533. (IF=3.423)
15. Duan, T. L., Pan, J. S., Wang, N., Cheng, K., & Yu, H. Y. (2017). Investigation on Surface Polarization of Al 2 O 3-capped GaN/AlGaN/GaN Heterostructure by Angle-Resolved X-ray Photoelectron Spectroscopy. Nanoscale Research Letters, 12(1), 1-6. (IF=4.703)
16. Wang, H., Wang, N., Jiang, L. L., Lin, X. P., Zhao, H. Y., & Yu, H. Y. (2017). A novel enhancement mode AlGaN/GaN high electron mobility transistor with split floating gates. Chinese Physics B, 26(4), 047305. (IF=1.494)
17. Li, N.*, Shi, S.*, Wang, N.*, et al. (2017). Effects of surface nanocrystallization on the corrosion behaviors of 316L and alloy 690. Surface and Coatings Technology, 309, 227-231. (IF=4.158)
18. Li, N., Shi, S. Q.*, Wang, N. (2016). Lead-induced stress corrosion cracking behavior of mechanically surface-treated alloy 690. Materials Research Letters, 4(3), 180-184. (IF=7.323)
19. Dong, B., Lin, J., Wang, N., Jiang, L. L., Hu, X., Cheng, K., & Yu, H. Y. (2016). Trap behaviours characterization of AlGaN/GaN high electron mobility transistors by room-temperature transient capacitance measurement. AIP Advances, 6(9), 095021. (IF=1.337)
20. Wang, H., Wang, N., Jiang, L. L., Zhao, H. Y., Lin, X. P., & Yu, H. Y. (2017). Study of the enhancement-mode AlGaN/GaN high electron mobility transistor with split floating gates. Solid-State Electronics, 137, 52-57. (IF=7.901)
21. Wang, H., Jiang, L., Wang, N., Lin, X., & Yu, H. (2017, October). The enhancement mode AlGaN/GaN high electron mobility transistor based on charge storage. In 2017 IEEE 12th International Conference on ASIC (ASICON) (pp. 662-665). IEEE.
22. Cook, P. J., Zhang, J., Liu, Y., Guan, W., Wang, N., Qin, L., ... & Grundy, P. J. (2012). Magneto-optical stokes polarimetry and nanostructured magnetic materials. Journal of Nanoscience and Nanotechnology, 12(2), 1067-1073.
代表专利:
1. 王宁,等一种三维多孔石墨烯薄膜的制备方法及其微流控芯片,2020.7.27。
2. 王宁,等,一种车载电解水制氢装置,2020.7.17。
3. 王宁,等,一种可动仿生微流控生物芯片装置,2020.7.17。
4. 王萌,王宁等,一种定向无源自驱动薄膜及其制备方法,2020.4.30。
5. 王萌,王宁等,一种用于控制液滴形状的薄膜及其制备方法与应用,2020.5.21。
6. 王萌,王宁等,一种引发液滴定向自弹跳的薄膜及其制备方法与应用,2020.6.4,国家知识产权局。
联系方式:
电子邮箱:wangning@sztu.edu.cn
