国产av

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刘宇清,男,工学博士,教授,博士生导师。07-08年国家公派联合培养博士在澳大利亚联邦科学与工业组织纤维材料所(CSIRO)进行聚合物光学纤维学习;09年毕业于东华大学纺织学院,获纺织工程博士学位;10-12年上海交通大学医学院影像医学博士后,从事纤维材料脑功能影像研究;13年现代丝绸国家工程实验室工作;14-16年苏州市吴江区科技局挂职,获江苏省“第八批科技镇长团优秀团员”;17年进入国产av 非织造材料与工程系工作至今;19年美国麻省理工(MIT)材料学院短期访问学者。目前主持省部级、市厅级等科研项目20余项,经费总额500余万元,已发表学术论文70余篇,授权中国发明专利60余件,美国专利3件。


主要研究方向

纤维光电材料;纤维能源材料;纤维智能穿戴材料;纤维神经生物材料


主讲课程

本科生课程:《智能穿戴创意设计》《非织造材料结构与性能表征》《纤维材料学》《纺织品检验学》《纺织与环境》

研究生课程:《先进非织造材料》《纺织品检验与评价》


主要获奖情况

1.生物质家纺面料功能化关键技术的研究与应用2021中国纺织工业联合会科技进步二等奖

2.基于睡眠感知科学的健康舒适床品关键技术与产业化2020中国纺织工业联合会科技进步优秀奖

3.践行绿色责任培养全球视野纺织创新人才的探索与实践2019纺织工业联合会教学成果三等奖

4.“全面联动、全程优化、全员参与”非织造专业课程教学模式的创新与实践2021纺织工业联合会教学成果一等奖

5.纺织品检测与评价”课程校企“2+1”教学模式的探索与实践2017纺织工业联合会教学成果三等奖

6.《先进非织造材料》2020中国纺织工业联合会优秀出版物一等奖

7.“纳米氧化钨复合棉纤维的制备及其光致变色性能”202021届陈维稷优秀论文奖

8.国产av “苏美达奖教金”2024


近五年主持的科研项目

1.绿色纤维与纺织品的区块加密技术及链式追踪系统研发2020116

2.绿色纤维与可持续纺织品的区块加密及链式追溯关键技术研究MS12020052

3.防伪绿色纤维素纤维制备方法及加密解密性能研发H240789

4.纳米抗紫外量子点功能母粒及其纤维制备H220960

5.丝蛋白纳米杂化纤维素纤维的功能化技术H220721

6.复合纺催化抗菌吸湿抗紫外涤纶丝的开发H220552

7. “气泡气泡皱防钻绒面料”的关键技术开发H220338

8.芳纶纳米金属化舒适 防护材料的加工关键技术开发H220339

9.耐日晒制冷伪装织物热转移印花关键技术H220166

10.生物基可降解功能性TPU复合材料的研制与开发H220165

11.抗紫外纳米抗菌舒适纺织品加工关键技术开发H220164

12.纳米抗菌遮光舒适织物的开发H220163

13.新型特种伪装材料开发H211703


近五年发表的代表性论文

1.Wang, M., Lu, S., Liu, Y., Liu, Y*. (2024).Half-side deposited TiO2 on silk fibroin films: For thermal comfort wearable triboelectric nanogenerators. Chemical Engineering Journal,505,159120.

2.Lu, S., Zheng, S., Li, Q., Wang, M., Mao, N., Li, J., Liu, J., Lin, J., Liu, Y*. (2024).Flexible Silk Fibroin-Based Triboelectric Nanogenerators with Thermal Management Capabilities for Temperature Regulation and Self-Powered Monitoring.Nano Letters, 24(49), 15933.

3.Yue T., Wang, Z., Fang, J., Liu, Y*. (2024). Co-doped MOF-5 and carbon nanotube nanoparticles enhancing stability and high output performance in core-shell nanofibers for piezoelectric nanogenerators. Journal of Colloid and Interface Science, 678, 526-535.

4.Zheng, M,. Xing, X., Zhang, Y., Li, Z., Yang, T., Liu, Y*. (2024). Boosting hydrogen evolution performance of nanofiber membrane-based composite photocatalysts with multifunctional carbon dots. Journal of Colloid and Interface Science, 678, 417-429.

5.Yue, T., Wang, M., Li, X., Zheng, M., Liu, J., Lin, J., Liu, Y*. (2024). Core-sheath PVDF hollow porous fibers via coaxial wet spinning for energy harvesting. Composites Communications, 50, 102019.

6.Zhang, Y., Niu, L., Li, Z., Yang, T. Liu, Y*. Kang, Z. (2024). A recyclable ZnIn2S4/PAN photocatalytic nanofiber membrane for boosting visible light hydrogen evolution in seawater without cocatalyst. Applied Catalysis B: Environment and Energy, 357, 124300.

7.Xing, X., Zhang, Y., He, Y., Niu, L., Guo, L., Yang, X., Fang, J., Liu, Y*. (2024). Ultra-stretchable and high performance fibrous TENG with helically structured dual-channel Liquid Metal electrode. Chemical Engineering Journal, 493, 152392.

8.Zhang, Y., He, Y., Xing, X., Jiang, Y., Fang, J., Liu, Y*. (2024). Enhanced sensing performance of superelastic thermally drawn liquid metal fibers through helical architecture while eliminating directional signal errors. Journal of Materials Science & Technology. 195, 136-145.

9.He, Y., Wan, C., Yang, T., Wang, Y., Fang, J., Liu, Y*. (2023). Thermally Drawn Super-Elastic Multifunctional Fiber Sensor for Human Movement Monitoring and Joule Heating. Advanced Materials Technologies, 8(11), 2202079.

10.Gao, L., Wang, Y., Liu, Y*, Xu, L. (2023). Core-shell Ppy@N-doped porous carbon nanofiber-based electrodes for high-property supercapacitors. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 663, 131056

11. Li, X., Li, Q., Hu, J., Li, R., Lin, J., Liu, Y*. (2022). Core-sheath phase change fibers via coaxial wet spinning for solar energy active storage. Composites Part B: Engineering, 247, 110346.

12. Hu, J., Xiong, Z., Liu, Y*. (2022). A biodegradable composite filter made from electrospun zein fibers underlaid on the cellulose paper towel. International Journal of Biological Macromolecules, 204, 419-428.

13. Wang, X., Xue, R., Li, M., Guo, X., Liu, B., Xu, W., Wang, Z., Liu, Y*., Wang, G., (2022). Strain and stress sensing properties of the MWCNT/TPU nanofiber film. Surfaces and Interfaces, 32, 102132.

14. Li, X., Li, Q., Yue, T., Liu, Y*. (2022). Progress in microfluidics preparation technology of micro/nano cellulose materials. Journal of Textile Research, 43(4), 180-186.

15. Li, Q., Li, X., Xie, F., Zhou, W., Chen, K., Liu, Y*. (2022). Research progress in nanocellulose energy storage materials based on electrospinning and carbonization methods. Journal of Textile Research, 43(5), 178-184.

16. Wang, Y., Ling, Z., Yang, X., Liu, Y*. (2021). Preparation of nano-tungsten oxide composite cotton fiber and its photochromic properties. Journal of Textile Research, 42(2), 21-26.

17. Hu, J., Zhang, K., Li, R., Lin, J., Liu, Y*. (2021). Preparation of flax layered nano-cellulose and properties of its reinforced thermoelectric composites, Journal of Textile Research, 42(2), 47-52.

18. Xu, C., Ling, Z. W., Qi, Z., Liu, R., Liu, Y*. (2020). Facile preparation of WO3 nanowires by bubble-electrospinning and their photocatalytic properties. Recent Patents on Nanotechnology, 14(1), 27-34.

19. Zhang, K., Zheng, S., Lin, J., Liu, Y*. (2020). Isolation of hierarchical cellulose building blocks from natural flax fibers as a separation membrane barrier. International journal of biological macromolecules, 155, 666-673.


出版的教材

1.《先进非织造材料》中国纺织工业出版社2020

2.《纺织品检验学(第3版)》中国纺织工业出版社2017,江苏省“十四五”普通高等教育本科省级规划教材


授权发明专利情况

1.一种耐高低温的整体化锌离子纤维电池及其制备方法ZL202310853382.1

2.一种对称柔性超级电容器及其制备方法ZL202310522058.1

3.一种压电纤维及其制备方法和应用ZL202310048091.5

4.一种用于监测压电的复合膜ZL202211613962.5

5.一种双层结构热敏性防火阻燃非织造材料及其制备方法ZL202211504363.X

6.一种蛋白质基气凝胶纤维吸音材料及其制备方法ZL202211504258.6

7.一种同轴湿法纺丝蓄热调温纤维及其制备方法和应用ZL202211505246.5

8.一种复合棉织物及其制备方法与其在偏位双光源下降解有机污染物中的应用ZL202211460201.0

9.一种基于聚电解质复合物的改性腈纶纤维及其制备方法ZL202211377835.X

10.一种具有抗紫外功能的复合纤维及其制备方法ZL202211281336.0

11.一种微流控静电纺纤维膜微球及其制备方法与在血管修复方面的应用ZL202211240327.7

12.一种弹性压阻式应变传感纤维及其制备方法与应用ZL202211217754.3

13.一种光热防伪纱线及其制备方法和应用ZL202210867306.1

14.一种纳米纤维纱线及其连续成纱方法ZL202210328444.2

15.一种双组分复合光致发光纱线的制备方法及其应用ZL202111537585.7

16.一种光致变色混纺棉纱及其制备方法和应用ZL202111537639.X

17.一种抗菌防虫蛀的发热复合纱线及其制备方法ZL202110405975.2

18.一种防起球抗菌型羊毛纱线及其制备方法ZL202110407252.6

19.一种吸湿快干暖感复合纱及其制备方法ZL202110407273.8

20.一种复合电致变色材料及其制备方法和应用ZL202110279348.9

21.一种碳纳米管复合纱线及其制备方法ZL202110279351.0

22.一种阻燃抗静电包覆纱及其应用ZL202110279347.4

23.包覆纱纺纱装置及碳纤维包覆纱的制备方法ZL202110249445.3

24.一种具有瑞士卷结构的压电纤维及其制备方法和应用ZL202010869980.4

25.聚合物光纤及发光织物ZL201910831484.7(可转让)

26.一种聚合物光纤的制备方法ZL201910831489.X(可转让)

27.一种聚合物光纤及发光织物ZL201910831485.1(可转让)

28.聚合物光纤的制备方法ZL201910831732.8(可转让)

29.一种具有防伪功能的防伪蚕丝的生产方法及防伪蚕丝的应用及防伪检测方法ZL201911194477.7(可许可)

30.一种防伪化学纤维及其制备方法ZL201910501209.9(可许可)

31.一种适用于防伪化学纤维的元素母粒及其制备方法ZL201910501205.0(可许可)

32.一种适用于防伪化学纤维的元素母液及其制备方法ZL201910501218.8(可许可)

33.一种化纤纺织品的防伪方法ZL201910501616.X(可许可)

34.Manufacturing Process for Piezoelectric Fiber having Swiss-Roll Structure. US11895921.B2(可转让)

35.Anti-Counterfeiting Lyocell Fiber, Preparation Method and Anti-counterfeiting Method. US 12024798.B2(可许可)

36.Anti-Counterfeiting Modal Fiber, Preparation Method and Anti-counterfeiting Method. US 11946166.B2(可许可)


成果转化

1.防伪竹浆纤维、制备方法及防伪方法ZL202011254934.X(已转让转化)

2.防伪粘胶纤维、制备方法及防伪方法ZL202011254984.8(已转让转化)

3.防伪莱赛尔纤维、制备方法及防伪方法ZL202011254961.7(已转让转化)

4.防伪莫代尔纤维、制备方法及防伪方法ZL202011256945.1(已转让转化)


国际交流与合作

1.新加坡国立大学(National University of Singapore

2.香港理工大学(The Hong Kong Polytechnic University


其它信息

诚挚欢迎各位研究生、本科生加入我们(绿色微纳纤维材料与智能系统课题组),开展有趣快乐的研究工作!


联系方式

Email[email protected]   [email protected]