先进纤维材料全国重点实验室(东华大学)
2026年开放课题基金申报指南
先进纤维材料全国重点实验室(原纤维材料改性国家重点实验室,以下简称“实验室”)依托于东华大学,自1992年建立以来,坚持“开放、流动、联合、竞争”八字方针,在凝聚学科人才、促进科研发展、构筑研究平台、扩大学术交流等方面取得了显著成绩,自2003年以来连续四次通过国家评估,2018年获评“优秀类国家重点实验室”。
为促进国内外学术合作和交流,扩大全国重点实验室作为学术交流和科学研究中心的作用,提高所在领域的学术研究水平,根据《全国重点实验室建设与管理暂行办法》、《全国重点实验室专项经费管理办法》及实验室发展规划,实验室设立开放课题,诚挚邀请国内外相关领域的研究人员进行申请,与实验室固定人员联合申报。所申请的开放课题将本着“公平竞争、科学评审、择优支持”的原则,经实验室专家组初审,主任办公会审议,由实验室学术委员会审定。
现将2026年开放课题指南公布如下:
一、资助研究方向
(1) 高性能纤维与复合材料:面向国家重大需求,围绕国防军工、航空航天、交通载具、极端环境探索等应用领域,聚焦高端碳纤维(T系列、MJ系列等)、有机高性能纤维(聚酰亚胺纤维、芳纶、液晶聚芳酯纤维、超高分子量聚乙烯纤维等)、无机高性能纤维(陶瓷纤维、玄武岩纤维、氧化铝纤维)在原料制备、纺丝加工、复合应用方面的产业放大技术或新材料体系创新技术。
(2) 功能纤维与绿色制造:面向经济主战场,围绕传统化纤产业高值化、绿色化转型的需求,聚焦非石化原料(废旧化纤再生原料、生物基/生物源原料等)、新技术工艺(湿纺/干纺溶剂绿色化、熔融纺丝熔体直纺、产线智能化设计等)、材料功能化(抗菌、阻燃、选择性透过等,不涉及能量形式转化)、高值化应用(生物医用、环境净化等)。
(3) 智能纤维与先端应用:面向世界科技前沿,围绕未来科技的智能化载体或未来产业前景的智能化器件,开发半导体纤维、储能纤维、能量转化纤维、催化转化纤维、传感纤维等用于转化能量形式(光电磁等)的纤维材料。同时关注纤维制造相关新物质(如新单体、新催化剂、新助剂等)或新技术(如聚合新方法、AI赋能设计新范式等)。
二、资助原则
1、开放课题基金主要资助对象应具有副高职称及以上或博士学位,并在国内外知名高等院校、科研机构、产业部门中获得一定工作经验的教学、科研及工程技术人员。为了鼓励年青人才脱颖而出,优先资助45岁以下的中青年专业人员作为课题负责人的研究项目,鼓励与实验室研究方向紧密结合、有助于提升实验室产业基础的企业相关技术人员申请。申请人应以实验室固定人员的研究组为依托,受到资助后与依托课题组合作开展实质性研究工作。
2、每项开放课题资助经费为5-10万元,研究期限为两年。
3、研究课题需与实验室研究方向相关,鼓励学科交叉以及优势互补的研究内容。
三、申请办法
1、申请人须认真填写《先进纤维材料全国重点实验室开放课题申请书》,纸质版申请书一式两份,须由申请人和单位负责人签字,并加盖公章;同时电子版申请书请通过电子邮件发送(盖章页请扫描后附上),邮件主题请标明:姓名+2026开放课题申请。
2.实验室常年接收开放课题申报材料,2026年开放课题申请截止日期:2025年8月30日。
3.联系人:王老师
电子邮箱: sklafm@dhu.edu.cn
联系电话:021-67792934;021-67792865(传真)
通信地址:上海市松江区人民北路2999号复材楼B350室,
先进纤维材料全国重点实验室,邮编201620。
附件1:
附件1a-先进纤维材料全国重点实验室(东华大学)开放课题基金申请指南及管理办法(2025修订版).docx
附件2:附件2a-先进纤维材料全国重点实验室(东华大学)开放课题申请书 2026.docx
先进纤维材料全国重点实验室
2025年7月7日
State Key Laboratory of Advanced Fiber Materials ( Donghua University )
Application Notification of 2026 Open Research Fund
Since its foundation in 1992, State Key Laboratory of Advanced Fiber Materials (SKLAFM) has successfully passed national evaluations in 2003, 2008, and 2013. In the fourth national assessment in 2018, it was awarded the title of "Excellent National Key Laboratory".
Guided by the policy of "Openness, Mobility, Cooperation, Competition", SKLAFM has made significant achievements in multiple fields over the years, including attracting disciplinary talents, promoting scientific research development, constructing research platforms, and expanding academic exchanges.
To promote domestic and international academic communication and cooperation, expand the role of SKLAFM as a center for academic exchange and scientific research, and elevate its research standards in related fields, the Open Research Project Fund is established in accordance with the“The Administrative Regulations for the Construction of State Key Laboratories”, “The Administrative Regulations for the Management of Special Funds for State Key Laboratories” and the development plan of SKLAFM.Domestic and international researchers are cordially invited to apply for the Open Research Projects, and joint applications with SKLAFM researchers are strongly encouraged. The Academic Committee of SKLAFM will select open projects based on the principles of “fair competition, scientific peer review, and merit-based support.”
The guidelines for 2026 annual open project are released as follows:
I. Main research fields of the open projects supported by SKLAFM:
1) High-performance fibers and composite.Facing the critical national needs, we specialize in advancing large-scale industrial production technologies and developing innovative material systems for three key categories of high-performance fibers:High-performance carbon fibers (including T-series and MJ-series);Organic high-performance fibers (such as polyimide fibers, aramid fibers, liquid crystal polyarylester fibers, and ultra-high molecular weight polyethylene fibers);Inorganic high-performance fibers (including ceramic fibers, basalt fibers, and alumina fibers). The research covers the entire value chain, from raw material preparation and spinning processes to composite applications in vital sectors like national defense, aerospace, transportation equipment, and extreme environment exploration.
2) Functional fibers and green manufacturing. Facing the pressing needs of economic development, we focus on driving the high-value transformation and green upgrading of the traditional chemical fiber industry. The efforts center on developing non-petrochemical raw materials (such as recycled waste chemical fibers and bio-based/bio-derived feedstocks) alongside innovative process technologies (including green wet/dry spinning solvents, melt spinning and direct melt spinning, and intelligent production line design). Additionally, we advance material functionalization (antibacterial, flame-retardant, and selective permeability properties, excluding energy conversion) and explore high-value-added applications in fields like biomedical engineering and environmental purification.
3) Intelligent fibers and cutting-edge applications. Facing the forefront of global technological innovation, we focus on developing next-generation intelligent fiber materials that will drive future industrial advancements. The research encompasses functional fibers for converting energy forms, including semiconductor fibers, energy storage and conversion fibers, catalytic fibers, and sensing fibers capable of transforming energy forms such as photoelectric and magnetic energy. Simultaneously, we explore novel fiber manufacturing technologies, including innovative monomers, catalysts, and additives, as well as advanced polymerization methods and AI-driven material design paradigms.
II. Funding principles
1.The applicant of the open research fund should at least hold an associate professor position or Ph.D. degree and have certain teaching, research or engineering experiences in domestic or foreign well-known universities, research institutions or companies. In order to improve the growth of young scientists, SKLAFM preferentially supports applicants under the age of 45. We encourage the technicists whose research directions are related to SKLAFM and who can contribute to the enhancement of SKLAFM to apply for fund. The applicants should combine with our research group and conduct substantive cooperation after funded by SKLAFM.
2.Each project can be supported 50,000 to 100,000 RMB and usually lasts two years.
3.Encourage interdisciplinary and complementary research with SKLAFM.
II. Application
1. The applicant shall complete“The Open Project Application Form of State Key Laboratory of Advanced Fiber Materials (Donghua University)” in duplicate, bearing the signatures of the applicant and institutional representative and the official institutional seal. Submit the electronic version toSKLAFM@dhu.edu.cn with the subject line "[Your Name] - 2026 Open Project Application". Attach the scanned page bearing signatures and the institutional seal.
2. Application Deadline:Aug. 30, 2025
3. Contact Information:
Contact Person:Ms. Yanhong Wang
E-mail Address: SKLAFM@dhu.edu.cn
Phone: +86-21-67792934;fax: +86-21-67792865
Mailing Address:Room B350, 2999 North Renin Road, Songjiang District, Composite Building,Donghua University, Shanghai 201620, China
State Key Laboratory of Advanced Fiber Materials (Donghua University)
July. 7th, 2025
Attachment 1:附件1b-Application Instructions and Regulations of Open Research Fund(Revised in 2025).docx
Attachment 2:附件2b-Open project application form 2026.docx
State Key Laboratory of Advanced Fiber Materials (Donghua University)
Application Notification of 2026 Visiting Scholar Fund
Since its foundation in 1992, State Key Laboratory of Advanced Fiber Materials (SKLAFM) has successfully passed national evaluations in 2003, 2008, and 2013. In the fourth national assessment in 2018, it was awarded the title of “Excellent National Key Laboratory”. Guided by the policy of “Openness, Mobility, Cooperation, Competition”, SKLAFM has made significant achievements in multiple fields over the years, including attracting disciplinary talents, promoting scientific research development, constructing research platforms, and expanding academic exchanges.
In order to promote domestic and international academic communication and cooperation, introduce high-level talents in various forms, improve the academic research level and teaching level of SKLAFM, and strengthen the role of high-level discipline construction and high-level innovative talent cultivation, the Visiting Scholar Fund is set according to the pertinent regulations of Ministry of Education “Opinions on the implementation of the visiting scholar system in the State Key Laboratory of Higher Education and the Key Laboratory of the Ministry of Education”, “The Administrative Regulations for Special Funds for Visiting Scholars in the State Key Laboratory of Colleges and the Key Laboratory of Key Laboratory of the Ministry of Education” and “The Administrative Regulations for the Construction of State Key Laboratories”, State Education Commission “The Administrative Regulations for Open Labs in Colleges and Universities”. Domestic and international researchers are cordially invited to apply for the Visiting Scholar Fund, and joint applications with SKLAFM researchers are strongly encouraged. The Academic Committee of SKLAFM will select visiting Scholar based on the principles of “fair competition, scientific peer review, and merit-based support.”
The guidelines for 2026 annual Visiting Scholar Fund are released as follows:
I. Main research fields of the visiting scholar supported by SKLAFM:
1) High-performance fibers and composite. Facing the critical national needs, we specialize in advancing large-scale industrial production technologies and developing innovative material systems for three key categories of high-performance fibers: High-performance carbon fibers (including T-series and MJ-series); Organic high-performance fibers (such as polyimide fibers, aramid fibers, liquid crystal polyarylester fibers, and ultra-high molecular weight polyethylene fibers); Inorganic high-performance fibers (including ceramic fibers, basalt fibers, and alumina fibers). The research covers the entire value chain, from raw material preparation and spinning processes to composite applications in vital sectors like national defense, aerospace, transportation equipment, and extreme environment exploration.
2) Functional fibers and green manufacturing. Facing the pressing needs of economic development, we focus on driving the high-value transformation and green upgrading of the traditional chemical fiber industry. The efforts center on developing non-petrochemical raw materials (such as recycled waste chemical fibers and bio-based/bio-derived feedstocks) alongside innovative process technologies (including green wet/dry spinning solvents, melt spinning and direct melt spinning, and intelligent production line design). Additionally, we advance material functionalization (antibacterial, flame-retardant, and selective permeability properties, excluding energy conversion) and explore high-value-added applications in fields like biomedical engineering and environmental purification.
3) Intelligent fibers and cutting-edge applications. Facing the forefront of global technological innovation, we focus on developing next-generation intelligent fiber materials that will drive future industrial advancements. The research encompasses functional fibers for converting energy forms, including semiconductor fibers, energy storage and conversion fibers, catalytic fibers, and sensing fibers capable of transforming energy forms such as photoelectric and magnetic energy. Simultaneously, we explore novel fiber manufacturing technologies, including innovative monomers, catalysts, and additives, as well as advanced polymerization methods and AI-driven material design paradigms.
II. Funding objects and principles:
There are two types of visiting scholars in SKLAFM: scholars from abroad and scholars within the domestic rather than the school. The working hours of overseas visiting scholars in SKLAFM shall not be less than 2 months in principle, and the working hours of domestic and non-local visiting scholars in SKLAFM shall not be less than 4 months in principle.
Funding principles:
1. Each project can be supported 50,000 to 100,000 RMB and usually lasts two years.
2. The research topic needs to be related to the research direction of SKLAFM, and it is encouraged to combine with the relevant research groups of SKLAFM.
3. Encourage interdisciplinary and complementary research with SKLAFM.
III. Application
1.The applicant shall complete “The Visiting Scholar Fund Application Form of State Key Laboratory of Advanced Fiber Materials (Donghua University)” in duplicate, bearing the signatures of the applicant and institutional representative and the official institutional seal. Submit the electronic version to SKLAFM@dhu.edu.cn with the subject line "[Your Name] - 2026 Visiting Scholar Fund Application". Attach the scanned page bearing signatures and the institutional seal.
2. Application Deadline:Aug. 30, 2025
3. Contact Information:
Contact Person: Ms. Yanhong Wang
E-mail Address: sklafm@dhu.edu.cn
Phone: +86-21-67792934;fax: +86-21-67792865
Mailing Address:Room B350, 2999 North Renin Road, Songjiang District, Composite Building, Donghua University, Shanghai 201620, Chin
State Key Laboratory of Advanced Fiber Materials (Donghua University)
July. 7th, 2025
Attachment 1:附件1b-Application Instructions and Regulations of Visiting Scholar Fund (Revised in 2025).docx
Attachment 2:附件2b-Visting Scholar application form 2026.docx
先进纤维材料全国重点实验室(东华大学)
2026年访问学者基金申请通知
东华大学纤维材料改性国家重点实验室自1992年建立以来,在历任实验室班子的领导下,坚持“开放、流动、联合、竞争”八字方针,在凝聚学科人才、促进科研发展、构筑研究平台、扩大学术交流等方面取得了显著成绩,2003、2008、2013年三次通过国家评估,2018年在第四次国家评估中获评“优秀类国家重点实验室”。
为促进国内外学术交流,以多种形式引进高层次人才,提高重点实验室的学术研究水平,推动高水平学科建设和高层次创新人才培养的作用,根据教育部《关于在高等学校国家重点实验室和教育部重点实验室实行访问学者制度的意见》、《关于在高等学校国家重点实验室和教育部重点实验室重点实验室访问学者专项基金管理办法》的有关规定和《国家重点实验室建设管理办法》、国家教委《高等学校开放实验室管理办法》,纤维材料改性国家重点实验室设立访问学者基金,诚挚邀请国内外相关领域的研究人员进行申请,鼓励与本室固定人员联合申报。实验室将本着“公平竞争、科学评审、择优支持”的原则,经专家组初审,主任办公会审议,由实验室学术委员会审定。
现将2026年访问学者基金指南公布如下:
一、资助研究方向
1. 高性能纤维与复合材料:面向国家重大需求,围绕国防军工、航空航天、交通载具、极端环境探索等应用领域,聚焦高端碳纤维(T系列、MJ系列等)、有机高性能纤维(聚酰亚胺纤维、芳纶、液晶聚芳酯纤维、超高分子量聚乙烯纤维等)、无机高性能纤维(陶瓷纤维、玄武岩纤维、氧化铝纤维)在原料制备、纺丝加工、复合应用方面的产业放大技术或新材料体系创新技术。
2. 功能纤维与绿色制造:面向经济主战场,围绕传统化纤产业高值化、绿色化转型的需求,聚焦非石化原料(废旧化纤再生原料、生物基/生物源原料等)、新技术工艺(湿纺/干纺溶剂绿色化、熔融纺丝熔体直纺、产线智能化设计等)、材料功能化(抗菌、阻燃、选择性透过等,不涉及能量形式转化)、高值化应用(生物医用、环境净化等)。
3. 智能纤维与先端应用:面向世界科技前沿,围绕未来科技的智能化载体或未来产业前景的智能化器件,开发半导体纤维、储能纤维、能量转化纤维、催化转化纤维、传感纤维等用于转化能量形式(光电磁等)的纤维材料。同时关注纤维制造相关新物质(如新单体、新催化剂、新助剂等)或新技术(如聚合新方法、AI赋能设计新范式等)。
二、资助对象及原则
重点实验室访问学者分为两种类型:来自境外的学者;境内而非本校的学者。境外访问学者在重点实验室的工作时间原则上不得低于2个月,境内而非本校访问学者在重点实验室的工作时间原则上不得低于4个月。
资助原则:
1、每项基金课题资助经费为5-10万元,研究期限为两年。
2、研究课题需与本实验室研究方向相关,鼓励和本实验室的相关研究组结合。
3、鼓励学科交叉以及与本实验室优势互补的研究课题。
三、申请办法
1、申请人须认真填写《先进纤维材料全国重点实验室访问学者课题申请书》纸质版申请书一式两份,须由申请人和单位负责人签字,并加盖公章。电子版申请书通过电子邮件发送(盖章页请扫描后附上),邮件主题请标明:姓名+2026访问学者基金申请。
2、实验室常年接收访问学者申报材料,2026年访问学者基金申请截止日期:2025年8月30日。
3、联系方式:
联系人:王老师
电子邮箱: sklafm@dhu.edu.cn
联系电话:021-67792934;021-67792865(传真)
通信地址:上海市松江区人民北路2999号复材楼B350室,
先进纤维材料全国重点实验室,邮编201620。
附件1:附件1a-先进纤维材料全国重点实验室(东华大学)访问学者基金申请指南及管理办法(2025修订版).docx
附件2:附件2a-先进纤维材料全国重点实验室(东华大学)访问学者申请书 2026.docx
先进纤维材料全国重点实验室
2025年7月7日