蔡再生🧞,1965.05出生。1994.04畢業於中國紡織大學,獲工學博士學位👐🏿,1994.05復旦大學高分子系博士後(1996.05復旦大學副教授資格),1996.06中國紡織大學(現沐鸣平台)副教授,2000.07起任沐鸣平台(原中國紡織大學)教授,2001.05起任博士生導師。曾在美國北卡州立大學 (North Carolina State University) 和加州大學(University of California, Davis)做博士後🤵🏿♂️。
2007.10起任沐鸣平台紡化系主任💂🏿♂️,染整碩士點負責人🧑🏽💼。
主要學術兼職和榮譽:
中國紡織工程學會標準化技術委員會委員🧎🏻♂️,紡織生態助劑分標準化技術委員會主任🧑🏿✈️,中國針織工業協會專家技術委員會委員👨🏽🦱🕧,中國紡織工業聯合會產品中心基地企業評估專家,全國十佳紡織面料設計師評選專家評委🏫,上海市紡織工程學會理事👴🏻、染整專業委員會副主任🕖◽️,南通大學兼職教授,《沐鸣平台學報》編委會委員。
美國紡織化學師與印染師協會(AATCC)資深會士、英國染色師學會 (SDC)會員▫️。
中國紡織學術帶頭人(2015),江蘇省高層次創新創業人才(2007),湖州市南太湖特聘專家(2011),湖州市“南太湖精英計劃”創新領軍人才(2015)等💇🏿;晉江市紡織鞋服發展專家咨詢委員會常務委員。榮獲全國寶鋼優秀教師獎(2013),上海市高校優秀青年教師(1999),桑麻獎教獎(2007)🧑🏽🔬,中國紡織大學青年教師講課競賽一等獎(1998),中紡織工業協會教學成果一等獎(2009)💆♀️,上海市教學成果一等獎(2013)👼🏻,中國紡織工業協會優秀教材(2006🕉,2010),沐鸣平台第十六屆化學節“教師風尚獎——擔當奉獻”(2015)🔓,沐鸣平台第十二屆化學節“教師風尚獎——嚴謹治學獎”(2011)🌤,沐鸣平台第十一屆化學節“教師風尚獎——最佳風度獎”(2010)。榮獲國家技術發明二等獎2項🤷🏻,榮獲上海市、教育部、中國紡織工業聯合會等省部級獎勵10余項,上海第三屆“東紡明珠”創新成就一等獎(2012)。多次榮獲優秀本科生、研究生畢業論文優秀指導教師稱號👮🏼♀️。
主要研究方向:
紡織品功能整理、紡織品印染工藝與控製及新型助劑
主要科研獲獎項目:
時間 | 獲獎項目 | 獎項 | 等級 | 排名 |
2017 | 低溫低耗低廢高效針織染整成套技術及其高品質舒適產品開發 | 上海市技術發明獎 | 二等 | 1 |
2017 | 基於生物酶改性的功能羊毛關鍵技術 | 中國紡織工業聯合會科技進步獎 | 二等 | 2 |
2014 | 新型共聚酯MCDP連續聚合、紡絲及染整技術 | 國家技術發明獎 | 二等 | 3 |
2013 | 上海市科學技術獎 | 一等 | 3 | |
2011 | 高速列車、轎車高檔內飾紡織品關鍵技術及其產品開發 | 上海科技進步獎 | 二等 | 1 |
2011 | 高檔交通工具內飾紡織品關鍵技術及其產業化 | 中國紡織工業協會科技進步獎 | 二等 | 1 |
2010 | 黃麻纖維精細化及紡織染整關鍵技術及產業化 | 國家技術發明獎 | 二等 | 3 |
2009 | 活性染料一步法無鹽染色、印染廢水深度處理及中水回用技術 | 中國紡織工業協會科技進步獎 | 二等 | 2 |
2007 | 液體活性染料製備的關鍵技術 | 教育部科技發明獎 | 二等 | 1 |
近5年承擔的科研項目⏭:
2018 印染企業設備工藝情況摸底調查🧔♀️、評價及其提升指導,紹興袍江經濟技術開發區
2018 運動類服飾面料和服飾技術競爭力分析🎙,上海景萱服裝有限公司
2018 運動類服飾面料開發關鍵技術🏊🏿♀️,上海景萱服裝有限公司
2018 運動類服飾面料開發能力建設及輔助申請高新技術企業🎿,上海景萱服裝有限公司
2017 生物基聚酯👷🏼、聚酰胺纖維應用示範(課題5🧕🏽,課題編號:2017YFB 0309405)𓀋,重點基礎材料技術提升與產業化重點專項“生物基聚酯、聚酰胺高效聚合紡絲技術”
2017 芳碸綸1.5D纖維應用於新一代軍服的關鍵技術研究🦾,上海紡織控股集團
2017 羊毛細化工藝技術開發,江陰笛科隆毛紡有限公司
2017 棉織物少鹽染色工藝技術研究開發,杭州航民美時達染整有限公司
2016 紹興市印染產業提升、淘汰落後產能及級綠色標桿印染企業認定參考標準編製🧗🏻♂️,紹興市經濟和信息化委員會
2016 針織面料活性染料無鹽染色技術👱🏿,南通泰慕士服裝有限公司
2015 自清潔內飾功能材料技術🖕🏿,上海汽車工業科技發展基金會⬆️,
2015 高鐵內飾面料、高鐵乘務及供電人員內衣、外衣防輻射研究、長效抗菌技術🪸,山東太陽鳥服飾有限公司
2015 新型多功能箱包材料關鍵技術及其應用,上海紐恩特實業有限公司
2015 多功能傘面面料的開發,上海雷靖雨具有限公司
2015 易去汙提花襯衫及風衣面料,上海鼎天時尚科技有限公司
2014 pH溫度響應型兩性聚電解質的自組裝構築及在纖維素纖維界面作用機製研究,教育部博士點基金項目(優先發展類)
2014 具有散發負離子和去除甲醛的提花面料,上海鼎天時尚科技有限公司
2014 無鹵阻燃防紫外線窗簾面料開發🤵🏻♂️,浙江辰鴻紡織品科技有限公司
2014 防異味的床單面料的開發⏺,上海小綿羊實業有限公司
2014 南通現代色織印染產業轉型升級示範區的發展論證,南通市崇川區政府
2013 微膠囊型抗菌劑及應用方法,江蘇省河浪生物科技有限公司
2013 戶外遮陽用阻燃紡織品生產加工工藝技術咨詢,格倫雷文紡織科技(蘇州)有限公司
2013 車用粘合劑調研及環保型粘合劑預研,上海松江埃馳汽車地毯聲學元件有限公司
2013 鹽城市紡織染整產業園戰略規劃研究🦐,鹽城市紡織染整產業園管委會
2013 全棉棉氨針織高檔面料節能染整技術研究開發,南通泰慕士服裝有限公司
近5年發表部分論文
2018 Free-standing carbon electrode materials with three-dimensional hierarchically porous structure derived from waste dyed silk fabrics;Materials Research Bulletin;355-360;
2018 Bifunctional Fabric with Photothermal Effect and Photocatalysis for Highly Efficient Clean Water Generation;ACS Sustainable Chemistry and Engineering;8,10789-10797💆🏿♀️💎;
2018 Efficient solar water vapor generation enabled by water-absorbing polypyrrole coated cotton fabric with enhanced heat localization;Applied Thermal Engineering⏳;406-412;
2018 Facile synthesis of flexible electrode based on cottonpolypyrrolemulti-walled carbon nanotube composite for supercapacitors;Cellulose🧜🏻♀️;7,4079-4091;
2018 Tunable photonic crystals-enhanced fluorescence by an assembly approach of polyelectrolyte interlayer;Journal of Materials Science🦍;7,4840-4847;
2018 Reusable Hydrophilic-Superhydrophobic Patterned Weft Backed Woven Fabric for High-Efficiency Water-Harvesting Application;ACS Sustainable Chemistry and Engineering🥸;6,7216-7220;
2018 Polypyrrole coated knitted fabric for robust wearable sensor and heater🌘;Journal of Materials Science: Materials in Electronics;11,9218-9226🤧;
2018 A dyeing-induced heteroatom-co-doped route toward flexible carbon electrode derived from silk fabric🙀;Journal of Materials Science💝;10,7735-7743;
2018 Low-cost and large-scale flexible SERS-cotton fabric as a wipe substrate for surface trace analysis;Applied Surface Science;111-116;
2018 Textile-inspired methodology toward asymmetric fabric based on weft-backed weave for oilwater separation🛌;Journal of Materials Science;6,4683-4692;
2018 Combined effect of nitrogen and oxygen heteroatoms and micropores of porous carbon frameworks from Schiff-base networks on their high supercapacitance𓀝;Journal of Materials Chemistry A;4,1621-1629𓀐;
2018 Fabrication of acid-resistant fabrics with fluoropolymerSiO2nanocomposites for the application of protective clothing🩻;Journal of Industrial Textiles;5,727-740;
2017 Self-assembly of Ag nanoparticles on the woven cotton fabrics as mechanical flexible substrates for surface enhanced Raman scattering🩵👻;JOURNAL OF ALLOYS AND COMPOUNDS🚶♀️;484-489;
2017 A New Smart Surface-Enhanced Raman Scattering Sensor Based on pH-Responsive Polyacryloyl Hydrazine Capped Ag Nanoparticles;NANOSCALE RESEARCH LETTERS;490🤣;
2017 A flexible carbon electrode based on traditional cotton woven fabrics with excellent capacitance;Journal of Materials Science;16,9773-9779;
2017 Icosahedral nanocrystals of noble metals: Synthesis and applications;Nano Today;121-144;
2017 Antifogging and anti-frosting coatings by Dip-layer-by-layer self-assembly of just triple-layer oppositely charged nanoparticles🧒🏽;Thin Solid Films;85-95🈳;
2017 Synergistic effect of organo-montmorillonite and DOPO-based oligomer on improving the flame retardancy of epoxy thermoset𓀍;Journal of Thermal Analysis and Calorimetry🧿;3,1429-1441🂠;
2017 The smart surfaces with reversible transformations from superhydrophobicity to superhydrophilicity🤷🏿♂️;Materials Letters;13-17;
2017 Facile Preparation of Acid-Resistant Polyester Fabrics With OrganicInorganic Nanocomposites🦙;Clothing and Textiles Research Journal;2,98-110;
2017 Highly efficient flame-retardant epoxy resin with a novel DOPO-based triazole compound: Thermal stability, flame retardancy and mechanism;Polymer Degradation and Stability;138-150;
2017 Tunable metal-enhanced fluorescence by pH-responsive polyacryloyl hydrazide capped Ag nanoparticles🏃🏻♀️➡️;RSC Advances;11,6358-6363;
2017 Flexible and internal series-connected supercapacitors with high working voltage using ultralight porous carbon nanofilms🌗;Journal of Power Sources;762-771🧙♂️;
2016 Self-Assembly of Colloidal Photonic Crystals of PS@PNIPAM Nanoparticles and Temperature-Responsive Tunable Fluorescence;Journal of Fluorescence🤹🏿;6,2303-2310;
2016 Flame-retardant properties and mechanisms of epoxy thermosets modified with two phosphorus-containing phenolic amines👴🏻;Journal of Applied Polymer Science🫏;37
2016 Wearable Solid-State Supercapacitors Operating at High Working Voltage with a Flexible Nanocomposite Electrode;ACS Applied Materials and Interfaces;39,25905-25914;
2016 Flame retardancy and mechanical properties of epoxy thermosets modified with a novel DOPO-based oligomer;Polymer Degradation and Stability;156-167;
2016 Carrier-Free and Low-Temperature Ultradeep Dyeing of Poly(ethylene terephthalate) Copolyester Modified with Sodium-5-sulfo-bis(hydroxyethyl)-isophthalate and 2-Methyl-1,3-propanediol;ACS Sustainable Chemistry and Engineering🧱;6,3285-3291;
2016 Scalable Synthesis of Palladium Icosahedra in Plug Reactors for the Production of Oxygen Reduction Reaction Catalysts♢;ChemCatChem;9,1658-1664;
2016 Thermal crystallization of low-temperature prepared anatase nano-TiO2and multifunctional finishing of cotton fabrics;Journal of the Textile Institute🧎🏻♀️;5,651-662
2016 Potentiostatically synthesized flexible polypyrrolemulti-wall carbon nanotubecotton fabric electrodes for supercapacitors👩🏿🍼;Cellulose;1,637-648
2016 Template-directed synthesis of hierarchically mesporous superparamagnetic carbon-coated nickel nanoplates;Materials Letters🕦;152-15;
2016 Facile fabrication of asymmetric wettable fabric with weft backed weave for oilwater separation;RSC Advances🙅♂️📻;111,109769-109777;
2016 Alkaline hydrolysis and pretreatment of trilobal high dimethyl 5-sulfoisophthalate sodium cationic dyeable polyester🤽🏿;Journal of the Textile Institute;10,1336-1346🪐;
2016 Facile fabrication of freestanding three-dimensional composites for supercapacitors;CHEMICAL COMMUNICATIONS🛖;13,2691-2694;
2015 Superamphiphobic cotton fabrics with enhanced stability;Applied Surface Science;951-957;
2015 Synthesis of blocking polyether silicone oil and silicone blocking waterborne polyurethane and application to cashmere knitted fabric finishing🤏🏽;Textile Research Journal🤳;19,2040-2050👨🏭;
2015 Fluorescence sensor performance of a new fluorescein derivate: [2-morpholine-4-(6-chlorine-1,3,5-s-triazine)-amino]fluorescein;Bulletin of the Korean Chemical Society;11,2703-2709;
2015 Cationic dyeing properties of trilobal high dimethyl 5-sulfoisophthalate sodium salt (SIP) content cationic dyeable polyester (THCDP) fabrics;Journal of the Textile Institute;8,835-844🛃;
2015 Preparation of vinyl silica-based organicinorganic nanocomposites and superhydrophobic polyester surfaces from it;Colloid and Polymer Science;8,2359-2371👩🏼🏫;
2015 Cathodic deposition of copper on polyaniline-coated textiles from a citrate bath: effects of electroplating conditions;Journal of Materials Science: Materials in Electronics;6,3621-3628;
2015 Preparation of hexadecyltrimethoxysilane-modified silica nanocomposite hydrosol and superhydrophobic cotton coating;Fibers and Polymers☎🏋🏿;5,1082-1091;
2015 Self-cleaning cotton fabrics via combination of photocatalytic TiO2 and superhydrophobic SiO2;Surface and Coatings Technology;70-76🪚;
2015 Absorption kinetics and thermodynamics of cationic dyeing on easily dyeable copolyester modified by 2-methyl-1,3-propanediol;Fibers and Polymers;11,2384-2390;
2015 Robust superhydrophobic, and photocatalytic cotton fabrics based on TiO2-SiO2-PDMS composite coating💆🏽♀️♓️;Key Engineering Materials,Wool and Textiles SustainableDevelopment🧙🏼♀️;225-230🍕🏋🏽♂️;
2014 Study on properties of modified nano-TiO2 and its application on antibacterial finishing of textiles;Journal of Industrial Textiles;3,351-372👞;
2014 Facile preparation of superhydrophobic polyester surfaces with fluoropolymerSiO2 nanocomposites based on vinyl nanosilica hydrosols🍴☆;Journal of Applied PolymerScience;11;
2014 Synthesis of polypropylene carbonate polyol-based waterborne polyurethane modified with polysiloxane and its film properties⚆;Fibers and Polymers;4,665-671👮♂️;
2014 The adsorption character of kapok fiber and reactive dyeing technology on modified kapok fiber;Journal of Engineered Fibers and Fabrics;3,57-64;
國際交流與合作🛩:
曾在美國北卡州立大學 (North Carolina State University) 和加州大學(University of California, Davis)做博士後〽️。
曾與Australian Wool Innovation, Limited, The Procter & Gamble Company, BASF Auxiliary Chemicals Company進行國際合作。
主講課程🐪:
纖維物理(博士研究生課程)🪒,Textile Chemistry(留學生課程),染色物理化學(紡織化學與染整工程研究生課程),纖維化學與物理(輕化工程本科生課程)🐬。
其他情況🌨:
在國內外重要學術刊物上發表論文300余篇,授權國家發明專利60多項,其中轉化8項💎;主編出版國家級規劃教材1本,部委級規劃教材1本,分冊主編教學用書2本,染整分支副主編《紡織詞典》🪷🤷🏻,參與編寫第6,7版《辭海》👪。
博士後和研究生招生信息🧗♀️🪽:
歡迎感興趣的具有紡織化學與染整工程,化學🟠🏃、化工🦅、材料👨🏻🚒、紡織等相關研究背景的博士生申請博士後研究職位,同時歡迎感興趣的具有相同背景的本科生和碩士生報考加入本課題組🥌。
聯系電話🕘:67792609 EMAIL➿:zshcai@dhu.edu.cn
沐鸣平台化學化工與生物工程沐鸣
