沈一洲,男,工學博士,南京航空航天大學材料科學與技術學院教授、博士生導師。
基本介紹
- 中文名:沈一洲
- 學位/學歷:博士
- 職業:教師
- 專業方向:飛機結冰防護理論與技術、仿生表界面潤濕行為及工程化套用
- 任職院校:南京航空航天大學材料科學與技術學院
個人經歷,研究方向,學術成果,獲獎記錄,
個人經歷
2016年6月在南京航空航天大學 材料科學與技術學院獲工學博士學位(導師:陶傑教授),隨後,2016年8月入選國家首批“博新計畫”人才支持計畫,並進入南京航空航天大學航空宇航科學與技術流動站從事博士後研究工作(合作導師:朱春玲教授),2017年3月至2018年4月在新加坡南洋理工大學材料科學與工程學院從事訪問學者(博士後)研究工作(合作導師:Prof. Chen Z.),2018年晉升副研究員,並留校工作至今。國際仿生工程學會會員、中國力學學會會員。
研究方向
1、飛機結冰防護理論與技術;2、仿生表界面潤濕行為及工程化套用;3、高性能塗層技術及其套用。
學術成果
◆沈一洲, 陶傑, 盧陽, 賈振峰, 吳正維, 江家威, 許楊江山. 一種具有球面特徵陣列微結構的金屬基體及其構建方法. 2018年11月14日, CN201811352335.4.
◆陶傑, 沈一洲, 金明明, 許楊江山. 一種提高水下鎖氣泡能力的工程表面及其製備方法. 2018年4月26日, CN201810384589.8.
◆沈一洲, 陶傑, 朱春玲, 謝月涵, 徐傑. 樹脂基複合材料表面製備超疏水微結構防覆冰表面的方法. 2017年12月13日, CN201711328539.X.
◆陶傑, 謝月涵, 沈一洲, 王冠宇, 金明明. 一種鋁基微錐陣列結構超疏水表面及其構建方法. 2017年7月21日, CN201710600074.2.
◆陶傑, 金明明, 沈一洲, 王冠宇, 謝月涵. 微納米分級結構超疏水表面的原位構建方法及套用. 2017年7月21日, CN201710600481.3.
◆沈一洲, 朱春玲, 陶傑, 謝月涵, 王冠宇, 金明明. 一種可控制撞擊液滴反彈方向的超疏水表面及其構建方法. 2017年1月6日, CN201710011158.2.
◆沈一洲, 劉森雲, 朱春玲, 陶傑. 一種本徵超疏水陶瓷塗層及其製備方法. 2016年11月23日, ZL201611037634.X.(已授權)
◆Shen Yizhou, Tao Jie, Chen Zhong, Zhu Chunling, Wang Guanyu, Chen Haifeng, Liu Senyun. Rational design of the nanostructure features on superhydrophobic surfaces for enhanced dynamic water repellency. ACS Sustainable Chemistry & Engineering, 2018, 6: 9958-9965.
◆Shen Yizhou, Tao Jie, Wang Guanyu, Zhu Chunling, Chen Haifeng, Jin Mingming, Xie Yuehan. Bioinspired fabrication of hierarchical-structured duperhydrophobic surfaces to understand droplet bouncing dynamics for enhancing water repellency. The Journal of Physical Chemistry C, 2018, 122: 7312-7320.
◆Shen Yizhou, Wang Guanyu, Tao Jie, Zhu Chunling, Liu Senyun, Jin Mingming, Xie Yuehan, Chen Zhong. Anti-icing performance of superhydrophobic texture surfaces depending on reference environments. Advanced Materials Interfaces, 2017, 4: 1700836.
◆Shen Yizhou, Liu Senyun, Zhu Chunling, Tao Jie, Chen Zhong, Tao Haijun, Pan Lei, Wang Guanyu, Wang Tao. Bouncing dynamics of impact droplets on the convex superhydrophobic surfaces. Applied Physics Letters, 2017, 110: 221601.
◆Shen Yizhou, Liu Senyun, Zhu Chunling, Tao Jie, Wang Guanyu. Facile fabrication of hierarchical structured superhydrophobic surface and its ultra dynamic water repellency. Chemical Engineering Journal, 2017, 313: 47-55.
◆Shen Yizhou, Tao Jie, Tao Haijun, Chen Shanlong, Pan Lei. Response to “Comment on ‘Approaching the theoretical contact time of a bouncing droplet on the rational macrostructured superhydrophobic surfaces'” [Appl. Phys. Lett. 108, 016101 (2016)]. Applied Physics Letters, 2016, 108: 016102.
◆Shen Yizhou, Tao Jie, Tao Haijun, Chen Shanlong, Pan Lei, Wang Tao. Anti-icing potential of superhydrophobic Ti6Al4V surfaces: ice nucleation and growth. Langmuir, 2015, 31: 10799-10806.
◆Shen Yizhou, Tao Jie, Tao Haijun, Chen Shanlong, Pan Lei, Wang Tao. Approaching the theoretical contact time of a bouncing droplet on the rational macrostructured superhydrophobic surfaces. Applied Physics Letters, 2015, 107: 111604.
◆Shen Yizhou, Tao Jie, Tao Haijun, Chen Shanlong, Pan Lei, Wang Tao. Relationship between wetting hysteresis and contact time of a bouncing droplet on hydrophobic surfaces. ACS applied materials & interfaces, 2015, 7: 20972-20978.
◆Shen Yizhou, Tao Jie, Tao Haijun, Chen Shanlong, Pan Lei, Wang Tao. Nanostructures in superhydrophobic Ti6Al4V hierarchical surfaces control wetting state transitions. Soft Matter, 2015, 11: 3806-3811.
◆Shen Yizhou, Tao Haijun, Chen Shanlong, Zhu Lumin, Wang Tao, Tao Jie. Icephobic/anti-icing potential of superhydrophobic Ti6Al4V surfaces with hierarchical textures. RSC Advances, 2015, 5: 1666-1672.
◆Shen Yizhou, Tao Jie, Tao Haijun, Chen Shanlong, Pan Lei, Wang Tao. Superhydrophobic Ti6 Al4V surfaces with regular array patterns for anti-icing applications. RSC Advances, 2015, 5: 32813-32818.
◆Shen Yizhou, Tao Haijun, Chen Shanlong, Xie Yuejun, Zhou Tao, Wang Tao, Tao Jie. Water repellency of hierarchical superhydrophobic Ti6Al4V surfaces improved by secondary nanostructures. Applied Surface Science, 2014, 321: 469-474.
◆Shen Yizhou, Guo Xunzhong, Lin Yuebin, Tao Jie. Al2O3 coatings fabricated on stainless steel-aluminium composites by microarc oxidation. Surface Engineering, 2014, 30 (10): 735-740.
◆Zhu Chunling, Liu Senyun, Shen Yizhou, Tao Jie, Wang Guanyu, Pan Lei. Verifying the deicing capacity of superhydrophobic anti-icing surfaces based on wind and thermal fields. Surface and Coatings Technology, 2017, 309: 703-708.