Method for the production of conductive flexible textile arrays

US7531203; US7531203 B2; US7531203B2; US7,531,203; US 7,531,203 B2; 7531203; Application No. 11/029,647Inventor name used in this publication: Marcus Chun-Wah YuenUSVersion of Recor

Methods for coating conducting polymer

US7510745; US7510745 B2; US7510745B2; US7,510,745; US 7,510,745 B2; 7510745; Application No. 11/222,179Inventor name used in this publication: Xiao-ming TaoInventor name used in this publication: Xiao-yin ChengUSVersion of Recor

Polypyrrole-coated fabric strain sensor with high sensitivity and good stability

Author name used in this publication: Hing Yee J. TsangAuthor name used in this publication: C. W. M. YuenVersion of RecordPublishe

Effect of metal oxide on anti-microbial finishing of cotton fabric

Author name used in this publication: Chun Wah M. YuenVersion of RecordPublishe

A web-based design support system for fashion technical sketches

2015-2016 > Academic research: refereed > Publication in refereed journalAccepted ManuscriptSelf-fundedPublishe

Analysis of the structural characteristics of nanoscale silk particles

Nanoscale silk particles were prepared from silk fibers by a special pretreatment with the aid of specially designed machinery and techniques. Scanning electron micrographs showed that the particle sizes of the silk powders produced from silk fibers around 9–11 μm in diameter decreased from a microscale to a nanoscale after three stages of pulverization, and this was further confirmed with a laser particle size analyzer. Fourier transmission infrared analysis showed that there were no substantial changes in the chemical structure of the silk after the pulverization processes. The silk powders after the second and third pulverizations slightly differed from that of the silk fiber and the particles after the first pulverization with a greater amount of the primary aliphatic amines. Also, there were secondary amides present in the silk fiber and the powders after the first and second pulverizations but absent in the powders after the third pulverization. Moreover, the silk powders after the third pulverization had a greater number of C(CH3)3 groups than the silk fibers and the powders after the first and second pulverizations. X-ray diffraction analysis showed that the crystallinity of the silk powders decreased when the particle sizes decreased, particularly to nanoscales.Institute of Textiles and Clothin

Treating of rayon-flocked fabric by atmospheric pressure plasma

202311 bcvcVersion of RecordOthersFinancial support from the Hong Kong Polytechnic University for this workPublishe

Effective Photodegradation of Methyl Orange Using Fluidized Bed Reactor Loaded with Cross-Linked Chitosan Embedded Nano-CdS Photocatalyst

2014-2015 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe

Method of treating fabrics and fibres

Inventor name used in this publication: 胡军岩, Hu Jun-yanInventor name used in this publication: 郑燕花Inventor name used in this publication: 杨国荣, Yeung K. W.Inventor name used in this publication: 袁进华Title in Traditional Chinese: 處理織物或纖維的方法ChinaVersion of Recor

Experimental study on fabric water repellency using nanotechnology

Institute of Textiles and Clothin