The Sino-Italian Marzoli (Dongtai) Textile Machinery Co. Ltd., located in Dongtai with 350,000m2, has a total asset of RMB350 million and a staff of 1024. The Chinese partner is the Dongtai Textile Machinery Co., Ltd....The Sino-Italian Marzoli (Dongtai) Textile Machinery Co. Ltd., located in Dongtai with 350,000m2, has a total asset of RMB350 million and a staff of 1024. The Chinese partner is the Dongtai Textile Machinery Co., Ltd., a key enterprise in China. Its ASFB751 and ASFB752 twisting frames share a large part of domestic market and won the prize of new technology in China. Its foreign partner - an Italian company is one of the largest 500 corporations in the world. Its subsidiary company - Marzoli is a展开更多
The Sino-Italian Marzoli (Dongtai) Textile Machinery Co. Ltd., located in Dongtai with 350,000m2, has a total asset of RMB350 million and a staff of 1024. The Chinese partner is the Dongtai Textile Machinery Co., Ltd....The Sino-Italian Marzoli (Dongtai) Textile Machinery Co. Ltd., located in Dongtai with 350,000m2, has a total asset of RMB350 million and a staff of 1024. The Chinese partner is the Dongtai Textile Machinery Co., Ltd., a key enterprise in China. Its ASFB751 and ASFB752 twisting frames share a large part of展开更多
The Sino-Italian Marzoli (Dongtai) Textile Machinery Co. Ltd., located in Dongtai with 350,000m2, hasa total asset of RMB350 million and a staff of 1024. The Chinese partner is the Dongtai Textile MachineryCo., Ltd., ...The Sino-Italian Marzoli (Dongtai) Textile Machinery Co. Ltd., located in Dongtai with 350,000m2, hasa total asset of RMB350 million and a staff of 1024. The Chinese partner is the Dongtai Textile MachineryCo., Ltd., a key enterprise in China. Its ASFB751 and ASFB752 twisting frames share a large part ofdomestic market and won the prize of new technology in China. Its foreign partner - an Italian companyis one of the largest 500 corporations in the world. Its subsidiary company - Marzoli is a展开更多
Wearable electronic devices are gaining popularity,with textiles serving as a highly flexible platform.Organic electronic devices,known for their ultra-thin and flexible properties,are also attracting attention.This s...Wearable electronic devices are gaining popularity,with textiles serving as a highly flexible platform.Organic electronic devices,known for their ultra-thin and flexible properties,are also attracting attention.This study presents a reliable fabrication method for textile-based organic light-emitting diodes(OLEDs)using a parylene-C planarization layer.The process creates a smooth surface with sub-nanometer roughness through a simple transfer and thermal annealing,forming a self-supporting planarization layer without immersion in water or chemicals.The parylene-C film enhances crystallinity and stiffness,ensuring mechanical stability.The fabricated OLEDs operate reliably under extreme deformations such as bending and wrinkling.Additionally,a 3×3 textile-based OLED array was demonstrated for display applications,and a scarf-based OLED verified its potential in fashion.This approach highlights the seamless integration of advanced electronics into textiles,offering promising applications across industries and marking a significant advancement in wearable display technology.展开更多
Textile-based,chip-less,wireless body sensor networks(WBANs)offer continuous,wireless monitoring of physiological signals from passive sensors distributed across body locations,representing a promising solution for da...Textile-based,chip-less,wireless body sensor networks(WBANs)offer continuous,wireless monitoring of physiological signals from passive sensors distributed across body locations,representing a promising solution for daily wearable sensing.Here,we introduce an all-textile,chipless,and battery-free textile-based body sensor network(tBSN)capable of simultaneously monitoring multiple passive sensors across the body.The tBSN is seamlessly integrated into conventional textiles via digital embroidery of flexible conductive fiber electrodes.Single-node tBSN exhibits robust wireless transmission over interconnect up to 40 cm and demonstrates durability under various conditions.By arranging multiple single-node sensor networks into a concentric multi-hub antenna architecture,we extend the system to a multi-node tBSN,enabling simultaneous wireless monitoring of distributed passive sensors within a single frequency scan.A wearable garment incorporating the multi-node tBSN tracked biomechanical signals from the vastus lateralis and knee joint during motion,highlighting its significant potential for personalized rehabilitation,fitness-assistive technologies,and advanced gait analysis.展开更多
文摘The Sino-Italian Marzoli (Dongtai) Textile Machinery Co. Ltd., located in Dongtai with 350,000m2, has a total asset of RMB350 million and a staff of 1024. The Chinese partner is the Dongtai Textile Machinery Co., Ltd., a key enterprise in China. Its ASFB751 and ASFB752 twisting frames share a large part of domestic market and won the prize of new technology in China. Its foreign partner - an Italian company is one of the largest 500 corporations in the world. Its subsidiary company - Marzoli is a
文摘The Sino-Italian Marzoli (Dongtai) Textile Machinery Co. Ltd., located in Dongtai with 350,000m2, has a total asset of RMB350 million and a staff of 1024. The Chinese partner is the Dongtai Textile Machinery Co., Ltd., a key enterprise in China. Its ASFB751 and ASFB752 twisting frames share a large part of
文摘The Sino-Italian Marzoli (Dongtai) Textile Machinery Co. Ltd., located in Dongtai with 350,000m2, hasa total asset of RMB350 million and a staff of 1024. The Chinese partner is the Dongtai Textile MachineryCo., Ltd., a key enterprise in China. Its ASFB751 and ASFB752 twisting frames share a large part ofdomestic market and won the prize of new technology in China. Its foreign partner - an Italian companyis one of the largest 500 corporations in the world. Its subsidiary company - Marzoli is a
基金supported by the Technology Innovation Program(20018379,Development of high-reliability light-emitting fiber-based woven wearable displays)funded by the Ministry of Trade,Industry&Energy(MOTIE,Korea)supported by the Technology Innovation Program(20017569,Development of substrate materials that can be stretched more than 50% for stretchable displays)funded by the Ministry of Trade,Industry&Energy(MOTIE,Korea)supported by BK21 FOUR(Connected AI Education&Research Program for Industry and Society Innovation,KAIST EE,No.4120200113769).
文摘Wearable electronic devices are gaining popularity,with textiles serving as a highly flexible platform.Organic electronic devices,known for their ultra-thin and flexible properties,are also attracting attention.This study presents a reliable fabrication method for textile-based organic light-emitting diodes(OLEDs)using a parylene-C planarization layer.The process creates a smooth surface with sub-nanometer roughness through a simple transfer and thermal annealing,forming a self-supporting planarization layer without immersion in water or chemicals.The parylene-C film enhances crystallinity and stiffness,ensuring mechanical stability.The fabricated OLEDs operate reliably under extreme deformations such as bending and wrinkling.Additionally,a 3×3 textile-based OLED array was demonstrated for display applications,and a scarf-based OLED verified its potential in fashion.This approach highlights the seamless integration of advanced electronics into textiles,offering promising applications across industries and marking a significant advancement in wearable display technology.
基金supported by the National Research Foundation of Korea(NRF)grant funded by the Korea government(MSIT)(RS-2021-NR061513,RS-2025-16071089)supported by Basic Science Research Program through the National Research Foundation of Korea(NRF)funded by the Ministry of Education(RS-2025-25420118)+1 种基金supported by the Council of Science&Technology(NST)grant by the Korea government(NSIT)(No.GTL25041-000)the DGIST R&D Program of the Ministry of Science and ICT(2025010373,25-IRJoint-06).
文摘Textile-based,chip-less,wireless body sensor networks(WBANs)offer continuous,wireless monitoring of physiological signals from passive sensors distributed across body locations,representing a promising solution for daily wearable sensing.Here,we introduce an all-textile,chipless,and battery-free textile-based body sensor network(tBSN)capable of simultaneously monitoring multiple passive sensors across the body.The tBSN is seamlessly integrated into conventional textiles via digital embroidery of flexible conductive fiber electrodes.Single-node tBSN exhibits robust wireless transmission over interconnect up to 40 cm and demonstrates durability under various conditions.By arranging multiple single-node sensor networks into a concentric multi-hub antenna architecture,we extend the system to a multi-node tBSN,enabling simultaneous wireless monitoring of distributed passive sensors within a single frequency scan.A wearable garment incorporating the multi-node tBSN tracked biomechanical signals from the vastus lateralis and knee joint during motion,highlighting its significant potential for personalized rehabilitation,fitness-assistive technologies,and advanced gait analysis.
