徐 壁
博士、紡織化學系副教授🤦🏿、碩士生導師
地址:上海市松江區人民北路2999號沐鸣平台3號沐鸣樓3109A室🧜🏻,201620
電子郵箱:xubi@dhu.edu.cn
課題組網站:https://www.x-mol.com/groups/xubi
教育背景與工作經歷
2015/09-至今 沐鸣平台 (紡織化學系,副教授)
2021/08-2022/08 江陰市祝塘鎮人民政府(江蘇省第十四批科技鎮長團,副鎮長)
2017/10-2018/10 賓夕法尼亞大學(材料科學系🧖🏿♂️🕶,訪問學者)
2010/07-2015/08 沐鸣平台(紡織化學系,講師)
2004/09-2010/06 沐鸣平台(紡織化學與染整工程➖,博士)
2008/10-2009/10 澳大利亞聯邦科學與工業研究組織(材料科學與工程,聯合培養博士)
2000/09-2004/07 江南大學(輕化工程👩🏻🔬,學士)
社會兼職
中國紡織工程學會會員,《針織工業》專家委員會委員,Science Advances、Advanced Materials🛺、ACS Applied Materials & Interfaces、Journal of Materials Chemistry A、Chemical Engineering Journal、Desalination和ACS Sustainable Chemistry & Engineering等期刊特邀審稿人。
主要研究領域
1.超浸潤(超疏水🧙🏿♀️、超疏油📢、超滑與超親水等)材料設計、製備與性能研究
2.被動(輻射📕、蒸發)降溫功能材料設計、製備與性能研究
3.太陽光驅動界面水蒸發
主持的主要科研項目
1.超雙疏與光催化協同自清潔表面的微結構設計及穩健性研究(國家自然科學基金委員會)
2.紡織纖維負載改性TiO2/SiO2氣凝膠復合光催化劑及光催化性能研究(上海市科學技術委員會)
3.光熱/電熱轉換雙層織物的設計及其增強水蒸發性能研究 (中國博士後科學基金委員會)
4.織物表面潤濕性能調控及其在油/水分離領域的應用(中央高校基本科研業務費專項資金)
5.具有可見光催化功能的長效超疏油材料的構築(紡織面料技術教育部重點實驗室)
6.織物組織與微觀結構對紡織品超疏水化的作用機製研究(中央高校基本科研業務費專項資金)
7.超聲輔助ZnO/SiO2/棉功能織物的製備(生態紡織教育部重點實驗室)
8.基於SiO2氣凝膠材料的無氟超疏水整理劑製備(國家染整工程技術研究中心)
9.紡織品表面凹形多尺度分級結構構建及其超疏油性能研究(紡織面料技術教育部重點實驗室)
10.納米增強無氟超拒水整理劑開發(企業項目)
11.基於熱熔膠梯度交聯技術的高檔襯布開發(企業項目)
12.耐久抗菌功能材料(企業項目)
13.降溫功能復合面料開發(企業項目)
主要論文
https://www.x-mol.com/groups/xubi/publications
1.Ji Yating, Sun Yilan, Muhammad Javed, Xiao Yonghe, Li Xiaoyan, Jin Kaili, Zaisheng Cai, Xu Bi*. Skin Inspired Thermoresponsive Polymer for Constructing Self-cooling System [J]. Energy Conversion and Management, 2022, 254:115251.
2.Sun Yilan, Ji Yating, Muhammad Javed, Li Xiaoyan, Fan Zhuizhui, Wang Youquan, Zaisheng Cai, Xu Bi*. Preparation of Passive Daytime Cooling Fabric with the Synergistic Effect of Radiative Cooling and Evaporative Cooling [J]. Advanced Materials Technologies, 2022, 7:2100803.
3.Xiaoyan Li, Muhammad Javed, Yang Guo, Zaisheng Cai, Bi Xu*. Superabsorbent Fabric Based on Weft-Back Weave Structure for Efficient Evaporative Cooling [J]. Advanced Materials Interfaces, 2021, 8: 2001329.
4.Guo Yang, Yujin Sui, Jiajie Zhang, Zaisheng Cai, Xu Bi*. An All-day Solar-driven Vapor Generator via Photothermal and Joule-heating Effects [J]. Journal of Materials Chemistry A, 2020, 8: 25178-25186.
5.Dandan Hao, Yudi Yang, Xu Bi*, Zaisheng Cai. Bifunctional Fabric with Photothermal Effect and Photocatalysis for Highly Efficient Clean Water Generation [J]. ACS Sustainable Chemistry & Engineering, 2018, 6:10789-10797.
6.Bi Xu, Yinyan Ding, Shaobo Qu, Zaisheng Cai. Superamphiphobic cotton fabrics with enhanced stability [J]. Applied Surface Science, 2015, 356: 951–957.
7.Bi Xu, Jiaoe Ding, Lei Feng, Yinyan Ding, Fengyan Ge, Zaisheng Cai. Self-cleaning Cotton Fabrics via Combination of Photocatalytic TiO2 and Superhydrophobic SiO2 [J]. Surface & Coatings Technology,2015, 262:70–76.
8.Bi Xu, Jackie Y. Cai, Niall Finn, Zaisheng Cai. An Improved Method for Preparing Monolithic Aerogels Based on Methyltrimethoxysilane at Ambient Pressure Part I: Process Development and Macrostructures of The Aerogels [J]. Microporous and Mesoporous Materials, 2012, 148:145-151.
9.Bi Xu, Jackie Y. Cai, Zongli Xie, Lijing Wang, Iko Burgar, Niall Finn, Zaisheng Cai, Lisa Wong. An Improved Method for Preparing Monolithic Aerogels Based on Methyltrimethoxysilane at Ambient Pressure Part II: Microstructure and Performance of The Aerogels [J]. Microporous and Mesoporous Materials, 2012, 148:152-158.
10.Bi Xu, Zaisheng Cai. Fabrication of A Superhydrophobic ZnO Nanorod Array Film on Cotton Fabrics via A Wet Chemical Route and Hydrophobic Modification [J]. Applied Surface Science, 2008, 254(18):5899-5904.
