吴汉光    教授

教研室：高分子材料科学与工程

学位/职称：工科博士

办公地点：1号楼413

Email：hanguangwu@bift.edu.cn

学习工作背景

2025/01 - 至今       北京服装学院        教授

2018/09 - 2024/12     北京服装学院        副教授

2016/07 - 2018/09           清华大学                            博士后

2014/10 - 2015/10           美国凯斯西储大学               联合培养

2010/09 - 2016/06           北京化工大学                     博士

2006/09 - 2010/06           北京化工大学                     本科    

研究方向

1. 智能可穿戴材料（摩擦纳米发电织物、可穿戴传感器、驱动器等）的开发、制备、与研究

2. 功能性纤维的开发、制备、与研究

3. 高性能高聚物材料开发与研究

招生专业

材料科学与工程、高分子材料科学与工程、材料化学、纺织专业等

科研项目

1.    北京市科协青年人才托举工程（BYESS2022211），省部级青年人才计划；

2.    北京市教委优秀青年人才支持项目（BPHR202203066），省部级青年人才计划；

3.    国家自然科学基金青年基金（51903006），基于导电高聚物 PEDOT:PSS 的可拉伸导电纤维的微流控制备与研究，项目负责人；

4.    北京市自然科学基金面上项目（2232049），纤维素基自供电智能传感织物的制备与研究，项目负责人；

5.    北京市自然科学基金青年基金（2194073），自供电智能可穿戴传感纤维的制备与研究，项目负责人；

6.    十四五国家重点研究发展计划（2022YFB3805802），织物基柔性可穿戴传感材料与器件制备及应用关键技术，子课题第二参与人。

7.    北京市教育委员会科技计划一般项目（KM202010012005），自供电智能织物的制备与研究，项目负责人；

8.    中国博士后科学基金面上项目（2017M610861），基于导电高分子传感层的可穿戴应变传感器的制备与研究，项目负责人；

代表性论文及著作

[1]  Huang, Jinzhu, Huang, Yichen, Li, Ting, Xu, Haoming, Wu, Hanguang*, Su, Zhiqiang, Ultra-High Performance Fibrous Ammonia Sensor with Full Degradability, ACS Sensors, 2025, accepted.

[2]  Tiantian Sun, Hanguang Wu*, Ming Tian, Strain-Insensitive Stretchable Conductive Fiber Based on Helical Core with Double-Network Hydrogel. Advanced Fiber Materials 2025, doi: 10.1007/s42765-025-00530-z

[3]  Huang, Jinzhu, Huang, Yichen, Li, Ting, Xu, Haoming, Wu, Hanguang*, Su, Zhiqiang, Respiration-Driven Ammonia Sensing Mask for Multifunctional Self-powered Monitoring Application. Chemical Engineering Journal 2025, 507, 160598.

 [4]  Yuxuan Wu, Hanguang Wu*, Liyu Deng, Zhiqiang Su*, Skin-inspired self-powered tactile sensing textile with high 

 resistance  to tensile interference. Nano Energy, 2024, 132, 110328.

[5]  Qiru Lian, Jiaxin Li, Ting Li, Qiuyu Li, Yifang Liang, Hanguang Wu*, and Rui Wang, All-cellulose triboelectric textile with complete biodegradability for eco-friendly smart wearable electronics. Nano Research Energy, 2024, 3, e9120139.

[6]  Nuo Chen, Wen Wei, Nanying Ning, Hanguang Wu*, Ming Tian*, All-Polymeric stretchable conductive fiber with versatile intelligent wearable applications via microfluidic spinning technology. Chemical Engineering Journal, 2024, 487, 150741.

[7]  Yuxuan Wu; Xiuju Cui; Hanguang Wu*, Zhiqiang Su*, All-polymeric fibrous triboelectric nanogenerator for self-powered intelligent active motions monitoring system. Chemical Engineering Journal, 2023, 469, 143708.

[8]  Xiuju Cui; An Li, Zongni Zheng, Hanguang Wu*; Rui Wang*, A Machine-Braided Flame-Retardant Triboelectric Yarn/Textile for Fireproof Application. Advanced Materials Technologies, 2023, 8, 2202116.

[9]  Jiaxiang Gao; Hanguang Wu*; Yang Xiao; Wenjing Ma; Fei Xu; Rui Wang; and Zhiguo Zhu* Synthesis of High-Efficiency, Eco-Friendly, and Synergistic Flame Retardant for Epoxy Resin. Fire 2023, 6, 14.

[10]  Xiuju Cui, Hanguang Wu*, Rui Wang^*, “Fibrous Triboelectric Nanogenerators: Fabrication, Integration, and Application”, Journal of Materials Chemistry A, 2022, 10, 15881.

[11]  Kun Fu, Jie Zhou, Hanguang Wu*, Zhiqiang Su*, “Fibrous self-powered sensor with high stretchability for physiological information monitoring”, Nano Energy, 2021, 88, 106258.

[12]  Peixin Yang, Hanguang Wu*, Feifei Yang, Rui Wang, Zhiguo Zhu*, “A Novel Self-Assembled Graphene-Based Flame Retardant: Synthesis and Flame Retardant Performance in PLA”. Polymers, 2021, 13, 23.

[13]  Hanguang Wu*, Hongwu Chen, Pengjun Yao, Rui Wang, “Stretchable and highly sensitive strain sensor based on conductive polymer aerogel for human physiological information detection”, Nano Select, 2021, 2, 802.

[14]  Kun Fu, Hanguang Wu*, Zhiqiang Su*, “Self-assembling peptide-based hydrogels: Fabrication, properties, and applications”, Biotechnology Advances, 2021, 107752.

[15]  Yiduo Li, Hanguang Wu*, Zhiqiang Su*, “Enzyme-based hybrid nanoflowers with high performances for biocatalytic, biomedical, and environmental applications”, Coordination Chemistry Reviews, 2020, 416, 213342.

[16]  Wencheng Du⁺*, Hanguang Wu⁺, Hongwu Chen⁺, Guochuang Xu, Chun Li, “Graphene Oxide in Aqueous and Nonaqueous Media: Dispersion Behaviour and Solution Chemistry”. Carbon, 2020, 158, 568.

[17]  Shangqing Li, Hongchi Tian, Hanguang Wu, Nanying Ning, Ming Tian*, Liqun Zhang, “Coupling effect of molecular weight and crosslinking kinetics on the formation of rubber nanoparticles and their agglomerates in EPDM/PP TPVs during dynamic vulcanization”. Soft Matter, 2020, 16, 2185.

[18]  Hanguang Wu, Qiang Liu, Wencheng Du, Chun Li, Gaoquan Shi*, “A Transparent Polymeric Strain Sensor for Monitoring Vital Signs and Beyond”, ACS Applied Materials & Interfaces, 2018, 10, 3895.

[19]  Hanguang Wu, Qiang Liu, Hongwu Chen, Gaoquan Shi*, Chun Li, “Fibrous Strain Sensor with Ultra-sensitivity, Wide Sensing Range, and Large Linearity for Full-Range Detection of Human Motion”, Nanoscale, 2018, 10, 17512.

专利

1.         抗拉伸干扰的可拉伸的压力传感织物及其制备方法、应用，申请号 2024104921767

2.         一种可生物降解的摩擦纳米发电织物及其制备方法，申请号 2023110867337

3.         一种具有良好阻燃抑烟性的摩擦纳米发电纱线及织物的制备方法及应用，申请号2024108023378

4.         一种全氟基摩擦外层的阻燃摩擦纳米发电织物的制备方法，申请号 2023107557123

5.         一种复合水凝胶纤维及其制备方法和应用，申请号 2023110428518

6.         一种具有皮芯结构的PU/PEDOT:PSS可拉伸导电纤维及其制备方法,申请号202210571523.6

7.         一种自供电智能感应编织物，专利号 ZL2022214316194

8.         外层卷绕法构建皮芯结构的自供电弹性传感纤维及其性能优化方法， 专利号 ZL2021102670991