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白紫千
助理教授
baizq@sustech.edu.cn
个人主页

白紫千博士,深圳市海外高层次人才,上海市浦江人才,博士生导师,人机交互设计实验室主任, 智能纤维材料及智能可穿戴纺织品专业委员会委员。研究领域包括智能可穿戴系统,新型纺织传感,人机交互设计,多模态感知。相关研究发表在Advanced Functional Material, ACS Sensors, Design journal, Computers In Industry, ACS Applied Interface & Material, IEEE Sensors等期刊, 以及CHI, Ubicomp, TEI等会议论文。近五年已主持科研项目包括国家自然科学基金面上项目,广东省面上项目,深圳市面上项目等。获得2024年德国“红点奖”Best of the Best”概念设计奖,以及2025年广东省教学成果一等奖。担任AFM, Advanced Science, Nano Energy, Affective Computing, IEEE Sensors, Measurement等期刊审稿工作。


研究领域:

1、可穿戴系统

2、新型纺织传感

3、人机交互设计

4、多模态感知

 

工作经历:

2020 至今        南方科技大学自动化与智能制造学院,助理教授

2019 - 2020    香港理工大学, 研究员

2018 - 2019    香港理工大学, 博士后研究员

2015 - 2018    东华大学, 讲师

2014 - 2015    香港理工大学, 客座讲师

2008 - 2011    香港理工大学, 助理研究员

2007 - 2008    香港J.&W.集团有限公司, 设计师

2006 - 2007    香港安利生有限公司, 设计师

 

教育经历:

2011 - 2015    香港理工大学,智能可穿戴产品设计方向, 博士

2005 - 2006    香港理工大学,服装与纺织品设计专业, 硕士

2001 - 2005    华南农业大学,服装设计与工程专业,本科

 

发表文章:

Referred Journal Papers 

1. C. Jin, C. Zhang, P. Yan, M. Jiang, R. Yin, K. Li, W. Zhao*, Z. Bai* (2024), A Superhuman Sensing Triboelectric Nanogenerator with Boosted Power Density and Durability via a Bio-Inspired Janus Structure, Adv. Funct. Mater. 2402233. https://doi.org/10.1002/adfm.202402233 (JCR Q1, IF: 19)

2. Jiang, M., Jin C. Bai, Z*.(2024), Omnidirectional Bending Sensor with Bi-anisotropic Structure for Wearable Electronics, ACS Sensors. DOI: 10.1021/acssensors.4c02734 (JCR Q1, IF:8.9)

3. Jiang, M., Hu, H., Jin, C., Lv, R., Guo, J., Jiang, S.*, & Bai, Z*. (2023). Three-Directional Spacer-Knitted Piezoresistant Strain and Pressure Sensor for Electronic Integration and On-Body Applications. ACS Applied Materials & Interfaces. doi:10.1021/acsami.3c09238 (JCR Q1, IF: 9.5)

4. Liu, H., Li, Y., Bai, Z.*, & Wang, Y. (2023). SMFM-based analogy retrieval tool for the conceptual design of innovative products. Computers in Industry, 151, 103973. doi:https://doi.org/10.1016/j.compind.2023.103973(JCR Q1,  IF: 10)

5. Jin, C., & Bai, Z. * (2022). MXene-Based Textile Sensors for Wearable Applications. ACS Sensors. doi:10.1021/acssensors.2c00097  (JCR Q1, IF:8.9)

6. Jiang, M., Y. Wang, V. Nanjappan, Z. Bai, and H. Liang. "E-Textiles for Emotion Interaction: A Scoping Review of Trends and Opportunities." Personal and Ubiquitous Computing 28, no. 3 (2024): 549-77. https://doi.org/10.1007/s00779-024-01793-w.

7. Zhang, W.; Bai, Z*.; Yan, P.; Liu, H.; Shao, L (2024). Recognition of Human Lower Limb Motion and Muscle Fatigue Status Using a Wearable FES-sEMG System. Sensors, 24, 2377. https://doi.org/10.3390/s24072377

8. Tan J.*, Bai, Z.Q*, Ge, L., Shao, L., & Chen, A. (2019).  Design and fabrication of touch-sensitive polymeric optical fibre (POF) fabric, The Journal of The Textile Institute, 110:11, 1529-1537, DOI: 10.1080/00405000.2019.1606379 

9. Bai, Z.Q., Tan J*., Chen A. and Ge, L. (2019), Enhancing the Wearablity and accessibility of Illuminated POF Garment, International Journal of Clothing Science and Technology Vol. 32 No. 2, pp. 218-230. https://doi.org/10.1108/IJCST-03-2019-0028

10. Bai, Z.Q., Tan J., Johnston, C. and Tao, X.M., (2014) Connexion: development of interactive soft furnishings with Polymeric Optical Fibre (POF) textiles, International Journal of Clothing Science and Technology,27(6), 870-894.

11. Liu, H., Tao, X., Xu, P., Zhang, H., & Bai, Z.Q. (2013). A dynamic measurement system for evaluating dry bio-potential surface electrodes. Measurement, 46(6), 1904-1913.

12. Bai, Z.Q. and Tan, J., (2012) Innovative design of polymeric photonic fiber fabric for interior textiles. Research journal of textile and apparel, 17:10-5.

13. Bai, Z.Q., Tan J., Johnston, C. and Tao, X.M., (2012) Enhancing the functionality of traditional interior textiles by integration of optical fibers. Research journal of textile and apparel, 16(4): p. 31-38.

14. Liu, H., Kang, W., Tao, X., Bai, Z.Q., Xu, P., & Zhang, H. (2012). Performance evaluation of surface biopotential dry electrodes based on PSD and EIS. International Journal of Advancements in Computing Technology, 4(20), 497-505.

Conference Proceedings     

15. H. Hu, M. Jiang, K. Lin, S. Jiang*, Z. Bai* , ReKnit-Care: A Seamless-Knitted Sensing Glove for Sensory Rehabilitation and Adaptive Haptic Feedback, in Nineteenth International Conference on Tangible, Embedded, and Embodied Interaction, TEI '25, March 4–7, 2025, Bordeaux / Talence, France, https://doi.org/10.1145/3689050.3705979

16. M. Jiang, H. Liu, J.Guo, H. Hu, Z. Bai *, Emotion Visualization and Emotion Recognition via Textile Strain-Sensing Network Clothes,Proceeding of  International Conference of Chinese CHI, 22-24, Nov. 2024 (in the press)

17. Hu, H., Shao, L., Jiang, S.* & Bai Z.*, “INTERACTIVE TEXTILES: ENGAGING THROUGH KNITTED E-TEXTILES”, Proceedings of the 21st World Textile Conference - Autex 2024, Liberec, Czech Republic, 17-19, June, 2024 (in the press)

18. Ge, L., Tan, J., Sorger, R., & Bai, Z. Q. (2018, June). Woven Light: An Investigation of Woven Photonic Textiles. In International Conference on Artificial Intelligence on Textile and Apparel (pp. 53-59). Springer.

19. Chen, A., Tan, J., Tao, X., Henry, P., & Bai, Z. Q.(2018). Challenges in Knitted E-textiles. Paper presented at the Artificial Intelligence on Fashion and Textile Conference, Hong Kong Polytechnic University.

20. Bai, Z.Q., Dong, A. H.,etc..The interactive optical fiber fabrics for smart interior environment. Proceeding of AUTEX World Textile Conference 2017,IOP Conf. Series: Materials Science and Engineering 254 (2017) 072003

21. Bai, Z.Q., Dong, A. H., Kong, L.B and Tan, J., Enhancing the functionality of Flexible Luminous Fabrics. Proceeding of 14th Asia Textile Conference, 27-30 June 2017, Hong Kong. p. 394-396

22. Bai, Z.Q., Tan J., Photonic textile design practice: A case study, Proceeding of Fiber Society 2016 Spring Conference: Textile Innovation, May 25- May 27, 2016

23. Bai, Z.Q., Tan J., Johnston, C. and Tao, X.M., (2013) Integration of surface printing and laser-engraving technology for design of colorchangeable POF fabric, 13th AUTEX World Textile Conference Dresden, May 22-24.

24. Tan, J. and Bai, Z.Q., (2011) Innovative design of photonic interior textiles, 8th International Shibori Symposium, Hong Kong. p.75-77.

25. Bai, Z.Q., Tan J., and Tao, X.M. (2011), Surface printing and photonic fibers for interactive interior textiles. Proceeding of The Fiber Society 2011 Spring Conference. Hong Kong. p. 150-151.

26. Bai, Z.Q., Tan J., and Tao, X.M. (2011), Interactive interiors: preliminary study of integrating textile embellishment techniques and polymeric photonic fibers for interior textiles. Proceedings of designing pleasurable products and interfaces conference 2011, Milan, Italy. p.279-282.

Patent     

Chinese Patent  

1. Electromyography Functional Electrical Stimulation Device Based on Fabric Electrodes, 202320614173.7

2. Knitted three-dimensional spacer piezoresistive sensor and weaving method thereof, CN116288892A

3. Piezoelectric Fabric Sensor & Apparel, 202221207645.9

4. Luminous knitwear and knitwear, 202221198345.9

5. A wearable training suit, 202321197474.0

6. A method for visualizing the action force and effect of wearable intelligent clothing system,202310521083.8,patent pending

7. Textile curvature sensor unit and manufacturing method, and textile curvature sensor,202310761544.9,patent pending

8. Electromyography functional electrical stimulation device based on fabric electrodes,202310316035.5,patent pending

9. Textile curvature sensor unit and textile curvature sensor,202321638050.3,patent pending

10. Method, device, terminal and medium for the filtering out of electrical stimulation interference based on fabric electrodes,202211366661.7,patent pending

11. Emotion recognition methods, emotion recognition devices, and emotion recognition systems,202210777324.0,patent pending

12. Piezoelectric fabric sensor, clothing and manufacturing method,202210546586.6,patent pending

13. An integrated universal platform based on smart luminous clothing,201710597475.7,patent pending

14. A real-time indoor PM2.5 detection system based on intelligent luminous interior products,201610503782.X,patent pending

15. Smart interactive illuminated garment system, 201710597517.7,patent pending


专利:

  1. 基于智能发光T台秀服装的集成通用平台, 201710597475.7 patent pending

  2. 一种基于智能发光家居用品室内PM2.5实时检测系统, 201610503782.X,patent pending

  3. 基于智能发光家居用品室内PM2.5实时检测系统, ZL 2016 2 0676728

  4. 智能互动发光服装系统, 201710597517.7, patent pending

 

所获荣誉:

2013   作品《霓裳》入选“时代映像中国时装艺术展1993-2012”,并由中国丝绸博物馆(国家一级博物馆)永久收藏;

2019  ThermoBlanket获得TechStyle国际比赛入围奖;

2017  指导研究生团队获得“华为杯”第十二届中国研究生电子设计竞赛上海赛区二等奖;

2016  优秀论文奖, The challenges of wearable technology from a polymer optical fibre (POFs) textile perspective. The Korea Society of Fashion Business 2016 International Conference in Soongsil University, South Korea;

2014 & 2015 香港理工大学Service-learning贡献大奖;

2017  中英合作时尚创意教学改革与创新,2017年度东华大学优秀教学成果奖一等奖;

2017  “纺织之光”中纺联纺织教育教学成果奖三等奖;

2013  优秀论文奖, Research Journal of Textile and Apparel. Bai, Z.Q., Tan J., Johnston, C. and Tao, X.M., (2012) Enhancing the functionality of traditional interior textiles by integration of optical fibers;

2011  《光线》,优秀作品奖, 第一届中国当代纤维艺术展,中国工艺美术学会;

 

设计作品展:

  1. 2018年12月,“广泛的物质性”,香港理工和帕森斯设计学院巡回展

  2. 2018年9月, “CAPI and SENSI”互动靠枕被邀请参加伦敦设计节

  3. 2018年6月,  “Materiality”,爱丁堡艺术学院Tent Gallery,爱丁堡大学

  4. 2017年8月, “霓虹上海“,爱丁堡艺术节时装秀,爱丁堡大学

  5. 2014年12月,“光的纬度”艺术展,香港医学博物馆,专家评赏:Anne Smith中央 圣马丁服装与纺织学院院长

  6. 2014年, “Lucent illusion”, 第十四届中国面料设计大赛暨国际会议,清华美院

  7. 2013年9月,“霓裳”获邀参加“时代映像-中国时装艺术1993-2012”,北京今日   美术馆

  8. 2013年7月,“新光子”艺术展,香港医学博物馆,专家评赏:米兰理工Paola Bertola教授

  9. 2012年11月,“白色花期”,从洛桑到北京纤维艺术双年展

  10. 2012年3月,“发光物体”,香港会展中心

  11. 2012年2月, “Circles”,Beat + Energy Nexus国际设计展,佛山

  12. 2011年12月,“旋律”,香港视觉艺术中心

  13. 2011年9月, “线性”,第一届中国纤维艺术展

  14. 2011年8月, “Future Photonics“, 香港创新中心, 专家评赏:曼彻斯特大学材 料学院Robert Young教授

  15. 2011年4月, “雕刻光线”,香港理工大学Fashion Gallery