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个人简介

牛丽,工学博士,师资博士后。20231月毕业于江南大学纺织科学与工程专业,获工学博士学位,20234月进入苏州大学纺织与服装工程学院工作。主要从事柔性可穿戴智能纺织材料研究及针织结构材料研究,目前已在国内外学术期刊上发表文章20多篇,获授权国家发明专利1项。


研究方向

  1. 柔性可穿戴智能纺织材料结构设计与性能研究

  2. 针织结构材料设计与开发


承担的科研项目

  1. 2020-20222020年江苏省研究生科研创新计划项目,主持

  2. 2020-2024,省部共建纺织新材料与先进加工技术国家重点实验室2021年度开放课题基金项目,参与


代表性论文

  1. li niu, xiao peng, lijun chen, qing liu, tairan wang, kai dong, heng pan, honglian cong, guanlin liu, gaoming jiang*, chaoyu chen*, pibo ma*. industrial production of bionic scales knitting fabric-based triboelectric nanogenerator for outdoor rescue and human protection. nano energy, 2022, 97: 107168.  

  2. li niu, jin wang, kai wang, heng pan, gaoming jiang, chaoyu chen*, pibo ma*. high-speed sirospun conductive yarn for stretchable embedded knitted circuit and self-powered wearable device[j]. advanced fiber materials, 2022: 1-14.

  3. li niu; xuhong miao*; yutian li; xinkai xie; zhen wen; gaoming jiang. surface morphology analysis of knit structure-based triboelectric nanogenerator for enhancing the transfer charge. nanoscale research letters, 2020, 15(1): 1-12.  

  4. li niu; shuqiang zhao; qing liu; guangjun wu; chaoyu chen; pibo ma*. analyzing the output performance of the knitted triboelectric nanogenerator based on the fish-scale shape using fast fourier transform. textile research journal, 2022, 92(7-8): 1079-1087.

  5. li niu; xuhong miao*; gaoming jiang; ailan wan; yutian li; qing liu. biomechanical energy harvest based on textiles used in self-powering clothing. journal of engineered fibers and fabrics, 2020, 15: 1558925020967352.

  6. qing liu, haiwen mao, li niu, fengxiang chen*, pibo ma*. excellent flexibility and stab-resistance on pangolin-inspired scale-like structure composite for versatile protection. composites communications, 2022, 35: 101266.

  7. tairan wang, yunchu shen, lijun chen, kai wang, li niu, guanlin liu, haijun he, honglian cong, gaoming jiang, qi zhang*, pibo ma*, chaoyu chen*. large-scale production of the 3d warp knitted terry fabric triboelectric nanogenerators for motion monitoring and energy harvesting[j]. nano energy, 2023, 109: 108309.  

  8. 牛丽,刘青,陈超余,蒋高明,马丕波*.仿生鳞片针织结构自供能传感织物的制备及其性能[j].纺织学报,2023,44(02):135-142.


授权发明专利

  1. 一种热湿调控智能织物、制备方法及应用,发明专利,专利号:cn114960005a,已授权。


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