研究成果

科研项目

近五年主持重要项目:

1. 国家高层次青年人才计划(2022-2024)

2. 国家自然科学基金面上项目(2023-2026)

3. 国家自然科学基金面上项目(2021-2024)

4. 国家自然科学基金青年基金(2016-2018)

5. 国家重点研发计划课题(2022-2025)

6. 国家重点研发计划课题(2016-2020)

7. 上海市自然科学基金原创探索项目(2020-2023)

8. 上海市优秀学术带头人计划(2021-2024)

9. 上海高校特聘教授岗位计划(2016-2019)

10. 上海市青年科技启明星计划(2016-2019)

11. 教育部纺织面料技术重点实验室重点项目(2019)

12. 中央高校基本科研业务费专项资金重点计划项目(2016-2018)

13. 美的集团技术开发合作项目(2019-2020)

14. 北京宝洁技术有限公司技术服务项目(2019-2020)

15. 上海泓济环保科技股份有限公司技术服务项目(2021)

16. 斐乐体育有限公司技术开发项目(2022-2024)

17. 中国建筑第八工程局有限公司技术开发项目(2022-2024)


代表论文

迄今以第一/通讯作者在Nat. Commun.、ACS Nano、Adv. Funct. Mater.、Mater. Today等期刊上发表SCI论文60余篇(ESI高被引论文5篇),论文总共被引3500余次,H因子为37。

近五年代表性SCI论文:(*代表通讯作者)

[1]. Y. Zhang, L. Wu, 王先锋*, J. Yu, and B. Ding*, Super Hygroscopic Nanofibrous Membrane-Based Moisture Pump for Solar-Driven Indoor Dehumidification, Nature Communications, 2020, 11, 3302. (IF 14.91,一区)

[2]. C. Wang, N. Meng, A. Babar, X. Gong, G. Liu, 王先锋*, J. Yu, B. Ding*. Highly transparent nanofibrous membranes used as transparent masks for efficient PM0.3 removal, ACS Nano, 2022, 16, 119-128. (IF 18.02,一区)

[3]. D. Miao, N. Cheng, 王先锋*, J. Yu*, and B. Ding*, Integration of Janus Wettability and Heat Conduction in Hierarchically Designed Textiles for All-Day Personal Radiative Cooling, Nano Letters, 2022, 22, 680–687. (IF 12.26,一区)

[4].D. Miao, 王先锋*, J. Yu, and B. Ding*, A Biomimetic Transpiration Textile for Highly Efficient Personal Drying and Cooling, Advanced Functional Materials, 2021, 31, 2008705. (IF 19.92,一区)

[5]. Y. Zhang, N. Meng, A. Babar, 王先锋*, J. Yu, and B. Ding*, Multi-bioinspired and Multistructural Integrated Patterned Nanofibrous Surface for Spontaneous and Efficient Fog Collection, Nano Letters, 2021, 21, 7806–7814. (IF 12.26,一区)

[6]. J. Zhao, W. Zhu, 王先锋*, L. Liu, J. Yu, and B. Ding*, Fluorine-Free Waterborne Coating for Environmentally Friendly, Robustly Water-Resistant, and Highly Breathable Fibrous Textiles, ACS Nano, 2020, 14 (1), 1045-1054. (IF 18.02,一区)

[7]. 王先锋, Z. Huang, D. Miao, J. Zhao, J. Yu, and B. Ding*, Biomimetic Fibrous Murray Membranes with Ultrafast Water Transport and Evaporation for Smart Moisture-Wicking Fabrics, ACS Nano, 2019, 13 (40), 34802–34810. (IF 18.02,一区)

[8]. C. Wang, J. Zhao, L. Liu, P. Zhang, 王先锋*, J. Yu, and B. Ding*, Transformation of Fibrous Membranes from Opaque to Transparent under Mechanical Pressing, Engineering, 2022, Doi:10.1016/j.eng.2021.02.018 (IF 12.83,中国科技期刊卓越行动计划-领军期刊).

[9]. D. Miao, Z. Huang, 王先锋*, J. Yu, and B. Ding, Continuous, Spontaneous, and Directional Water Transport in the Trilayered Fibrous Membranes for Functional Moisture Wicking Textiles, Small, 2018, 14, 1801527. (IF 15.15,一区)

[10].D. Miao, 王先锋*, J. Yu, and B. Ding*, Nanoengineered Textiles for Outdoor Personal Cooling and Drying, Advanced Functional Materials, 2022, 2209029. (IF 19.92,一区)

专利专著

主编/参编书籍:

[1].B. Ding, 王先锋, J. Yu, “Electrospinning: Nanofabrication and Applications”, Netherlands, Elsevier B.V., 2019, ISBN: 978-0-323-51270-1. (主编书籍)

[2].王先锋and B. Li, “Phase-change solvents for CO2 capture”, In: Editor Fan Shi and Bryan Morreale, “Novel Materials for Carbon Dioxide Mitigation Technology”, Netherlands, Elsevier B.V., 2015, pp 3-22.

[3].王先锋and B. Li, “Electrospun nanofibrous sorbents and membranes for carbon dioxide capture”, In: Editor Bin Ding and Jianyong Yu, “Electrospun Nanofibers for Energy and Environmental Applications”, Germany, Springer Publishers, Inc., 2014, pp 249-263.

[4].王先锋, Y. Duan and B. Li, “Development and evaluation of fibrous adsorbents for carbon dioxide removal”, In: Editor Andrew Wright and Shawn Johnson, “Atmosphere and Climate: Physics, Composition/Dynamics and Health Impacts”, America, Nova Science Publishers, Inc., 2012, pp 83-98.

[5].王先锋, B. Ding, J. Yu and G. Sun, “Applications of nanofibers in sensors”, In: Editor Qufu Wei, “Functional Nanofibers and Applications”, Cambridge, Woodhead Publishing Inc., 2012, pp 209-235.

[6].王先锋, B. Ding, J. Yu and G. Sun, “Surface modified electrospun nanofibrous membranes for humidity detection based on quartz crystal microbalance technique”, In: Editor Christopher T. Okada, “Humidity Sensors: Types, Nanomaterials and Environmental Monitoring”, America, Nova Science Publishers, Inc., 2011, pp 144-160.

[7]. 参编《静电纺丝与纳米纤维》,中国纺织出版社出版,ISBN 978-7-5064-7267-8(获中国纺织工业联合会优秀图书奖)

[8]. 参编《非织造实验教程》,东华大学出版社,ISBN 978-7-5669-1118-6


代表性发明专利:

1.王先锋、王超、丁彬、俞建勇,一种透明纳米纤维膜及其制备和在透明口罩上的应用,专利号ZL202111360739.X(授权)

2.王先锋、缪东洋、丁彬、俞建勇,具有水分单向传导能力的微纤维复合膜及其制备方法,专利号ZL201710094417.2(授权)

3.王先锋、缪东洋、张昕辉、丁彬、俞建勇,具有润湿梯度的单向导湿纤维多层复合膜的制备方法,专利号ZL201710435876.2(授权)

4.王先锋、缪东洋、丁彬、俞建勇,一种维持伤口适度湿润的定向导液敷料及其制备方法,专利号ZL201910429368.2(授权)

5.丁彬、王先锋、张宇菲、林燕燕、俞建勇,一种医卫防护用润湿梯度类蜂巢结构纤维膜及其制备方法,专利号ZL202010446711.7(授权)

6.王先锋、张宇菲、丁彬、俞建勇,一种高比表面积类蜂巢结构纳米纤维材料及其制备方法,专利号ZL202010446712.1(授权)

7.王先锋,王超,丁彬,王学利,俞建勇,一种高强粗旦聚丙烯纺粘长丝及其制备方法,专利号ZL201810694331.8(授权)

8.王先锋,张宇菲,丁彬,俞建勇,氨基化碳管掺杂的碳纤维吸附材料及其制备方法,专利号ZL201610664022.7(授权)

9.王先锋、丁彬、窦绿叶、俞建勇,一种二氧化碳吸附用胺基改性纤维材料的制备方法,专利号ZL201610663895.6(授权)

10.王先锋、窦绿叶、丁彬、俞建勇,用于二氧化碳吸附的聚离子液体纤维材料及其制备方法,专利号ZL201610664105.6(授权)


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