師資
白紫千博士,南方科技大學自動化與智能制造學院助理教授,深圳市鵬城孔雀人才、上海市浦江學者。她在智能可穿戴系統,新型紡織纖維傳感器,人機交互設計,人因工程學,人類行為感知等在內的交叉學科取得了一定成果。已經建立了年輕、高效的研發團隊,從理論到實現深入掌握了智能織物、交互紡織品、人體生理信號監測與數據處理、人機交互等領域的基本原理和一些關鍵技術,積累了豐富的理論研究,取得了很好的研究成果,發表20多篇SCI論文,第一發明人申請18項專利。主持科研項目包括國家自然科學基金,廣東省面上項目。其他項目包括廣東省教育廳教育科學,李寧公司合作的“柔性可穿戴下肢功能電刺激系統”項目。本人一直聚焦于智能纖維傳感材料及基于織物傳感器的智能可穿戴交互系統研究,相關研究發表在《Advanced Functional Material》(中科院TOP期刊,IF:19.5),《ACS Sensors》(中科院TOP期刊,IF:8.9),《Computers In Industry》(中科院TOP期刊,IF:10),《 ACS Applied Interface & Material》(一區,IF:9.5),等期刊。2024年獲得德國“紅點獎”最佳設計獎。其設計作品被國內外知名大學、頂級博物館及美術館邀請展出,包括倫敦設計周、清華大學、中國絲綢博物館、青島海天藝術中心等。
研究領域:
1、智能可穿戴織物
2、基于柔性材料的傳感機理研究
3、人機交互、實體交互理論與實踐
4、可穿戴醫療保健裝置
工作經歷:
2020 至今 南方科技大學自動化與智能制造學院,助理教授
2019 - 2020 香港理工大學, 研究員
2018 - 2019 香港理工大學, 博士后研究員
2015 - 2018 東華大學, 講師
2014 - 2015 香港理工大學, 客座講師
2008 - 2011 香港理工大學, 助理研究員
2007 - 2008 香港J.&W.集團有限公司, 設計師
2006 - 2007 香港安利生有限公司, 設計師
教育經歷:
2011 - 2015 香港理工大學,智能可穿戴產品設計方向, 博士
2005 - 2006 香港理工大學,服裝與紡織品設計專業, 碩士
2001 - 2005 華南農業大學,服裝設計與工程專業,本科
發表文章:
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
專利:
基于智能發光T臺秀服裝的集成通用平臺, 201710597475.7 patent pending
一種基于智能發光家居用品室內PM2.5實時檢測系統, 201610503782.X,patent pending
基于智能發光家居用品室內PM2.5實時檢測系統, ZL 2016 2 0676728
智能互動發光服裝系統, 201710597517.7, patent pending
所獲榮譽:
2013 作品《霓裳》入選“時代映像中國時裝藝術展1993-2012”,并由中國絲綢博物館(國家一級博物館)永久收藏;
2019 ThermoBlanket獲得TechStyle國際比賽入圍獎;
2017 指導研究生團隊獲得“華為杯”第十二屆中國研究生電子設計競賽上海賽區二等獎;
2016 優秀論文獎, 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 香港理工大學Service-learning貢獻大獎;
2017 中英合作時尚創意教學改革與創新,2017年度東華大學優秀教學成果獎一等獎;
2017 “紡織之光”中紡聯紡織教育教學成果獎三等獎;
2013 優秀論文獎, 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 《光線》,優秀作品獎, 第一屆中國當代纖維藝術展,中國工藝美術學會;
設計作品展:
2018年12月,“廣泛的物質性”,香港理工和帕森斯設計學院巡回展
2018年9月, “CAPI and SENSI”互動靠枕被邀請參加倫敦設計節
2018年6月, “Materiality”,愛丁堡藝術學院Tent Gallery,愛丁堡大學
2017年8月, “霓虹上海“,愛丁堡藝術節時裝秀,愛丁堡大學
2014年12月,“光的緯度”藝術展,香港醫學博物館,專家評賞:Anne Smith中央 圣馬丁服裝與紡織學院院長
2014年, “Lucent illusion”, 第十四屆中國面料設計大賽暨國際會議,清華美院
2013年9月,“霓裳”獲邀參加“時代映像-中國時裝藝術1993-2012”,北京今日 美術館
2013年7月,“新光子”藝術展,香港醫學博物館,專家評賞:米蘭理工Paola Bertola教授
2012年11月,“白色花期”,從洛桑到北京纖維藝術雙年展
2012年3月,“發光物體”,香港會展中心
2012年2月, “Circles”,Beat + Energy Nexus國際設計展,佛山
2011年12月,“旋律”,香港視覺藝術中心
2011年9月, “線性”,第一屆中國纖維藝術展
2011年8月, “Future Photonics“, 香港創新中心, 專家評賞:曼徹斯特大學材 料學院Robert Young教授
2011年4月, “雕刻光線”,香港理工大學Fashion Gallery