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Textiles are getting smarter, and much of this is being enabled by nanotechnology. “Smart Textiles and Nanotechnologies: Applications Technologies and Markets” provides the most in depth look to date at the impact of nanotechnology on the global textile industry, looking at technologies and applications from graphene to smart homes.

Expanded and revised for 2014, over 280 pages “Smart Textiles and Nanotechnologies: Applications Technologies and Markets” looks at the technologies involved from silver nanoparticles to electrospun graphene fibers, the companies applying them, and the impact on sectors including apparel, home, military, technical and medical textiles.

Detailed market figures are given from 2012-2022, along with an analysis of the key opportunities, illustrated with 140 figures and 14 tables.

With over a billion Bluetooth enabled devices on the market, ranging from smartphones to set top boxes, and new technologies such as energy scavenging or piezoelectric energy generation being made possible by the use of nanotechnologies , there are opportunities for the textile industry in new markets ranging from consumer electronics to medical diagnostics.

Market Scope

This report provides an in-depth presentation of recent developments in nanotechnology applied to smart textiles and provides market opportunities to 2022. The market is segmented by:

Clothing & Apparel
Home Textiles
Military Textiles
Medical Textiles
Sport Textiles
Technical and Smart Textiles

Table Of Contents

Smart Textiles and Nanotechnologies: Applications Technologies and Markets
Table of Contents
ABOUT CIENTIFICA RESEARCH . 2
Table of Contents . 3
EXECUTIVE SUMMARY 10
INTRODUCTION 19
Objectives of the Report .. 19
World Textiles and Clothing . 19
Overview of Nanotechnology Applications in the EU Textile Industry 22
Overview of Nanotechnology Applications in the US Textile Industry 24
Overview of Nanotechnology Applications in the Chinese Textile Industry . 26
Overview of Nanotechnology Applications in the Indian Textile Industry . 27
Overview of Nanotechnology Applications in the Japanese Textile Industry 27
Overview of Nanotechnology Applications in the Korean Textile Industry .. 29
Textiles in the Rest of the World .. 31
Macro and Micro Value Chain of Textiles Industry . 32
Common Textiles Industry Classifications .. 32
End Markets and Value Chain Actors 32
Why Textiles Go Nano . 34
Nanotechnology in Textiles 34
Examples of Nanotechnology in Textiles . 36
Nanotechnology in Some Textile-related Categories .. 38
Technical and Smart Textiles . 38
Multifunctional Textiles . 39
High Performance Textiles .. 40
Smart/Intelligent Textiles .. 40
Nanotechnology Hype .. 42
CURRENT APPLICATIONS OF NANOTECHNOLOGY IN TEXTILE PRODUCTION 43
Nanotechnology in Fibers and Yarns .. 43
Graphene 43
Nanofibers 48
Nano-Structured Composite Fibers . 48
Nanotechnology in Textile Finishing, Dyeing and Coating . 54
Nanofinishing 54
Improved Wear Resistance .. 57
Nanotechnology In Textile Printing .. 64
Green Technology—Nanotechnology In Textile Production Energy Saving .. 66
Electronic Textiles . 67
Concept .. 67
Markets and Impacts 68
Current E-Textile Solutions and Problems .. 68
Nanotechnology in Electronic Textiles .. 87
Energy Harvesting Textiles .. 95
Future and Challenges of Electronic Textiles .. 100
SMART TEXTILES, NANOTECHNOLOGY AND APPAREL . 102
Nano-Antibacterial Clothing Textiles .. 107
Nanosilver Safety Concerns .. 111
UV/Sun/Radiation Protective 112
Hassle-free Clothing: Stain/Oil/Water Repellence, Anti-Static, Anti-Wrinkle .. 113
Anti-Fade 115
Comfort Issues: Perspiration Control, Moisture Management 115
Creative Appearance and Scent for High Street Fashions . 118
Nanobarcodes for Clothing Combats Counterfeiting .. 125
High Strength, Abrasion-Resistant Fabric Using Carbon Nanotube 126
Nanotechnology For Home Laundry 126
Current Adopters of Nanotechnology in Clothing/Apparel Textiles . 127
Products and Markets .. 127
Market Forecast .. 133
NANOTECHNOLOGY IN HOME TEXTILES . 136
Summary of Nanotechnology Applications in Home Textiles 136
Current Applications of Nanotechnology in Home Textiles .. 137
Current Adopters of Nanotechnology in Home Textiles .. 138
Products and Markets .. 138
Drapilux .. 140
Costs and Benefits . 142
Future Projections for Nanotechnology in Home Textiles . 146
Market Forecast .. 146
NANOTECHNOLOGY APPLICATIONS IN MILITARY/DEFENCE TEXTILES 149
Summary of Nanotechnology Applications in Military/Defence Textiles 150
MILITARY TEXTILES .. 151
Current Applications of Nanotechnology in Military/Defence Textiles .. 153
Current Adopters of Nanotechnology in Military/Defence Textiles .. 161
Light Weight, Multifunctional Nanostructured Fibers and Materials .. 163
Costs and Benefits . 167
Future Projections for Nanotechnology in Military/Defence Textiles . 169
Market Forecast .. 169
NANOTECHNOLOGY APPLICATIONS IN MEDICAL TEXTILES .. 172
Summary of Nanotechnology Applications in Medical Textiles .. 173
Current Applications of Nanotechnology in Medical Textiles . 177
Current Adopters of Nanotechnology in Medical Textiles . 179
Products and Markets .. 179
Costs and Benefits . 190
Future Projections for Nanotechnology in Medical Textiles 191
Market Forecast .. 191
NANOTECHNOLOGY APPLICATIONS IN SPORTS/OUTDOOR TEXTILES 195
Summary of Nanotechnology Applications in Sports/Outdoor Textiles .. 195
Current Applications of Nanotechnology in Sports/Outdoor Textiles .. 196
Current Adopters of Nanotechnology in Sports/Outdoor Textiles . 203
Products and Markets .. 203
Costs and Benefits . 209
Future Projections for Nanotechnology in Sports/Outdoor Textiles . 210
Market Forecast .. 210
NANOTECHNOLOGY APPLICATIONS IN TECHNICAL AND SMART TEXTILES 213
Summary of Nanotechnology Applications in Technical and smart textiles . 213
Current Applications of Nanotechnology in Technical Textiles .. 213
Current Adopters of Nanotechnology in Technical and smart textiles . 223
Products and Markets .. 223
Costs and Benefits . 237
Future Projections for Nanotechnology in Technical and smart textiles 239
Market Forecast .. 239
APPENDIX I: COMPANIES/RESEARCH INSTITUTES APPLYING NANOTECHNOLOGIES TO THE TEXTILE INDUSTRY242
Companies Working on Nanofiber Applications . 242
Companies Working on Nanofabric Applications .. 242
Companies Working on Nano Finishing, Coating, Dyeing and Printing Applications 244
Companies Working on Green Nanotechnology In Textile Production Energy Saving Applications . 245
Companies Working on E-textile Applications . 246
Companies Working on Nano Applications in Clothing/Apparel Textiles . 250
Nano-Antibacterial Clothing Textiles .. 251
UV/Sun/Radiation Protective 252
Comfort Issues: Perspiration Control, Moisture Management .. 252
Creative Appearance and Scent for High Street Fashions 253
Nanobarcodes for Clothing Combats Counterfeiting .. 253
High Strength, Abrasion-Resistant Fabric Using Carbon Nanotubes . 254
Companies Working on Nano Applications in Home Textiles .. 255
Companies Working on Nano Applications in Sports/Outdoor Textile 259
Companies Working on Nano Applications in Military/Defence Textiles .. 260
Companies Working on Nano Applications in Technical Textiles . 264
APPENDIX II: SELECTED COMPANY PROFILES . 266
APPENDIX III: COMPANIES MENTIONED IN THIS REPORT .. 277

List of Figures

Figure 1 Current World Textile Market by Sector (2012-22) . 11
Figure 2 The Global Textile Market By Sector (US$ Millions) 11
Figure 3 Market for Textile Products Using Nanotechnologies (2012-22) . 12
Figure 4 Markets for Nano-enabled Textiles .. 12
Figure 5 % of Markets Impacted by Nanotechnologies . 13
Figure 6 Nano-contribution to World Textiles by Sector (2012-22) .. 14
Figure 7 Total Value of Nanomaterials in Textiles (2012-2022) .. 15
Figure 8 Value of Nanomaterials in Textiles by Sector (2012-2022) . 16
Figure 9 Nanotechnology Enabled Average Market Growth in Textiles by Sector (2012-2022)
. 17
Figure 10 Changes in Global Textile Markets 2012-2022 18
Figure 11 Relevant Product Development Stages for the Different Company Types 19
Figure 12 Global Textile Market by Sector (2012-22) .. 20
Figure 13 Top 10 Countries By Nanotechnology and Textile Publishing Activity 2009-12 . 21
Figure 14 Main Players in World Exports of Textiles (left) and Clothing (right) 22
Figure 16 Uses of artificial leather Chamude®: (a) suede, (b) bags, and (c) jackets . 28
Figure 17 Nanotechnology at AIST: (a) tailor-made molecular tubes, (b) drug delivery systems,
and (c) single electron transistors .. 29
Figure 18 Macro-Value Chain of Textiles Industry . 32
Figure 20 The Technical Textiles Wheel .. 39
Figure 21 Textile Technology and Function Convergence .. 41
Figure 22 Graphene .. 43
Figure 23 Graphene Oxide and Reduced Graphene Oxide Yarns 44
Figure 24 Production of Graphene Oxide Yarn . 45
Figure 25 Image of a LED light integrated with a folded Reduced Graphene Oxide nanofabric,
which serves as an electrical interconnect . 46
Figure 26 Stretchable Graphene Oxide Fibers from Penn State University and Shinsu
University .. 47
Figure 27 One day we may be able to make stronger nylon by starting at the nanoscale 52
Figure 28 The World's Shortest Piece of Nylon 53
Figure 29 NanoSino's 4 E Principles for Coating Trends . 54
Figure 30: SEM images of cotton fibers, control (a), treated with bulk ZnO (b) and treated with
nano-ZnO (c). .. 55
Figure 31 Antibacterial activity of cotton fabrics: untreated (a), bulk ZnO treated (b) and nano-
ZnO treated (c). The dotted growth on the left-hand side corresponds to S. aureus and the
mucous growth corresponds to K. pneumoniae. Arrows represent the zone of inhibition of S.
aureus by nano-ZnO coated cotton fabrics. .. 56
Figure 32 The ‘lotus effect' effectively repels dirt and moisture .. 58
Figure 33 BASF's lotus-effect aerosol spray combines nanoparticles with hydrophobic
polymers such as polypropylene, polyethylene and waxes .. 58
Figure 34 Fabric Without and With the Sun-block Layer, Courtesy of Hong Kong Polytechnic
University .. 60
Figure 35 SEM photograph of Functional Material Coating on Polyester Fiber Surface
Courtesy of Toray Industries, Inc. . 62
Figure 36 J-Teck nanodot inks set up on a Mimaki JV33/ JV5 Crab Feeder . 65
Figure 37 The development of e-textiles .. 67
Figure 39 IMEC's wireless, flexible and stretchable ECG patch for comfortable cardiac
monitoring . 70
Figure 40 Conducting meanders in the non-stretched state allow up to 40% stretch . 71
Figure 41 Stretchable thermometer demonstrating possibility of embedded components .. 72
Figure 42 Chain Mail Fabric for Smart Textiles 72
Figure 43 Electroplated Fabric 73
Figure 44 Potential applications of carbon nanotube coated yarns .. 76
Figure 45 A Fuji Electric employee displays the company's flexible solar power cell ‘Fwave',
a light, thin and flexible modules that can be mounted on curved surfaces . 77
Figure 46 Conducting cotton creates a simple circuit at Cornell University .. 81
Figure 47 Energy harvesting textiles at the University of Southampton .. 82
Figure 48 LGChem cable-shaped lithium-ion battery powers an LED display even when
twisted and strained .. 83
Figure 49 This organic electrochemical transistor was made with cotton fibers. The gate, drain
and source in the device are made from cotton threads with conductive or semiconductive
behavior induced by using nanoparticle-based coatings. .. 85
Figure 50 Woven fabrics containing carbon nanotubes for strength and conductivity .. 87
Figure 51 Organic field effect transistor (OFET) fully compatible with textile processing
techniques .. 91
Figure 52 A Huichol girl from Mexico examines an early prototype of the solar-powered
portable light. (Image: Kennedy and Violich Architecture) 93
Figure 53 These Aboriginal women are trying foldable versions of the prototype light source,
which includes an aluminised textile to help spread the light. 94
Figure 54 Aboriginal man is wearing a Mexican-made bag that has the photovoltaic panels
sewn into it. He is holding the light device in his hand (Image: Sheila Kennedy) .. 95
Figure 55 Sphelar Textile .. 96
Figure 56 Sphelar Textile Solar Cells . 96
Figure 57 Shirt combining PolyPower stretch sensing technology with an Ohmatex textile
cabling and connector .. 97
Figure 58 Soft House can 16,000 watt-hours of electricity, or over half the daily energy needs
of a typical U.S. home . 98
Figure 59 Sportswear with integrated sensors from Textronix .. 99
Figure 61 ‘Intimacy White' and ‘Intimacy Black' introduced by the Dutch firm Studio
Roosegaarde .. 102
Figure 62 Functional fashion Levi's using Schoeller's nanosphere technology . 106
Figure 63 The Market for Anti-Bacterial Textiles . 107
Figure 64 How antibacterial ‘SmartSilver works .. 108
Figure 65 Typical delivery formats of nano silver (from NanoHorizons Inc.) 109
Figure 66 A fiber coated with silver nanoparticles 110
Figure 67 BASF Ultramid BS416N® with TiO2 nanoparticles for UV protection 113
Figure 68 Oil resistance of Inanova® .. 114
Figure 69 Klimeo - Microcapsules containing a natural temperature-regulating ingredient are
applied in and on the fabric 117
Figure 70 Karma Chameleon Chenille Strip Prototype - photonic bandgap (PBG) fibers woven
on a computer-controlled electronic Jacquard loom . 119
Figure 71 Karma Chameleon Leaf pattern using a white cotton warp, a white cotton weft and a
PBG fiber weft to create individual illuminated designs.. . 120
Figure 72 Products with Nano-Metal Coating Effect, Courtesy of Suzutora 121
Figure 73 Nylgold from Nylstar .. 121
Figure 74 Hug Shirt from CuteCircuit . 122
Figure 75 The Twitter Dress from CuteCircuit 123
Figure 76 Teijin's Morphotex allows colors without the use of dyes .. 124
Figure 77 Donna Sgro's Morphotex dress . 125
Figure 78 Design student Olivia Ong ‘07 hugs two garments, treated with metallic
nanoparticles through a collaboration with fiber scientists Juan Hinestroza and Hong Dong,
that she designed as part of her fashion line, “Glitterati . 129
Figure 79 Clothing designed by Olivia Ong. The dress and jacket contain nanoparticles with
antibacterial and air-purifying qualities .. 130
Figure 80 A scanning electron microscope image showing a cotton fiber with palladium
nanoparticle coating .. 131
Figure 81 Smart Fabrics Offer Designers New Possibilities in Fashion . 131
Figure 82 Nanotechnology Enabled Clothing/Apparel Textiles Market 2012-2022 133
Figure 83 Value of Nanotech Inputs in Clothing Textiles 2012-22 .. 134
Figure 84 The Roadmap for Future Applications of Nanotechnology in Clothing/Apparel
Textiles Source: Cientifica . 135
Figure 86 Value and properties added by metal films . 138
Figure 89 Drapilux care home drapes .. 141
Figure 90 The Global Textile Market in 2012 (% Market Share) .. 143
Figure 91 The Global Textile Market in 2012 (US$ Millions) 144
Figure 92 Nanotechnology Enabled Home Textiles Market (US$ Millions) .. 146
Figure 93 Value of Nanomaterials in Home Textiles 2012-2022 (US$ Million) .. 147
Figure 94 The Roadmap for Future Applications of Nanotechnology in Home Textiles .. 148
Figure 95 The World's Shortest Piece of Nylon . 153
Figure 97 Alexium's Cleanshell treatment has the ability to protect against Chemical Warfare
Agents for days, as opposed to minutes offered by other methods 157
Figure 98 Self-Assembling Nanotubes in Water 159
Figure 99 Self-Assembling Nanocarpet .. 159
Figure 100 A forest of carbon nanotubes 160
Figure 101 twisted nanofibers .. 160
Figure 102 Two-ply nanofiber yarn from CSIRO Textile and Fiber Technology . 161
Figure 103 Sandia researcher George Bachand examines an enlargement of actual images of light-emitting quantum dots .. 162
Figure 104 The Future Force Warrior system .. 164
Figure 105 Nanotechnology Enabled Military/Defense Textiles 2012-2022 (US$ Millions) . 169
Figure 106 Value of Nanomaterials in Military/Defense Textiles 2012-2022 (US$ Millions) 170
Figure 107 The Roadmap for Future Applications of Nanotechnology in Military/Defence
Textiles . 171
Figure 108 Integrating bio-chemical sensors into textiles for continuous monitoring of a
person's health is the goal of the EU-funded BIOTEX .. 179
Figure 109 Acticoat 7 burn dressing containing nanosilver particles from Smith and Nephew 180
Figure 110 Schoeller Medical's iLoad fabric used in incontinence underwear .. 184
Figure 111 Smart Footwear installed with fabric sensors. (Credit: Image courtesy of The Hong
Kong Polytechnic University) .. 186
Figure 112 SOFTCEPTORâ„¢ textile strain sensors .. 187
Figure 113 Nanoflex moniroring system 188
Figure 114 Clothing+ Cardiac Monitor for Adidas 189
Figure 115 Nanotechnology Enabled Medical Textiles 2012-2022 (US$ Millions) 192
Figure 116 Value of Nanomaterials in Medical Textiles 2021-2022 (US$ Millions 193
Figure 117 Teijin's Nanofront fiber used in cycling and golf gloves .. 197
Figure 118 New Balance running sock using Teijin's Nanofront modified with nano-sized
bumps to raise frictional force and increase surface area 198
Figure 119 Teijin Nanofront pillows in ANA first class . 199
Figure 120 JX Nippon Oil and Energy Corporation polypropylene nanofibers with 300~500
nm fiber diameter 200
Figure 123 Checklight from Reebock and MC10 .. 206
Figure 124 Hödving infalatable cycle helmet .. 207
Figure 125 Myontec MBody Coach .. 208
Figure 126 ATHOS sports performance monitoring apparel 208
Figure 127 Nanotechnology Enabled Sports/Outdoor Textiles 2012-2022 (US$ Millions) . 210
Figure 128 Value of Nanomaterials in Sports/Outdoor Textiles 2012-2022 (US$ Millions) .. 211
Figure 129 The Roadmap for Future Applications of Nanotechnology in Sports/Outdoor
Textiles . 212
Figure 130 Scanning electron microscopic images of the chars of ABS nanocomposites 219
Figure 131 Fire completely destroys untreated cotton fabric until nothing remains (control), but
only burns a 221
Figure 132 The World's Shortest Piece of Nylon .. 223
Figure 133 Potential applications of carbon nanotube coated yarns . 229
Figure 134 A Fuji Electric employee displays the company's flexible solar power cell ‘Fwave',
a light, thin and flexible modules that can be mounted on curved surfaces .. 230
Figure 135 Conducting cotton creates a simple circuit at Cornell University . 234
Figure 136 Energy harvesting textiles at the University of Southampton . 235
Figure 137 LGChem cable-shaped lithium-ion battery powers an LED display even when
twisted and strained 236
Figure 138 Nanotechnology Enabled Technical and smart textiles 2012-2022 (US$ Million)
.. 239
Figure 139 Value of Nanomaterials in Technical and smart textiles 2012-2022 (US$ Millions
.. 240
Figure 140 e-textiles: from wearable batteries to heath monitoring . 246

List of Tables

Table 1 Nanotechnology-Enabled Market Growth in Textile by Sector (2012-22) 15
Table 2 Global Textile Market by Sector (2012-22) 20
Table 3 Top 20 Countries Publishing on Nanotechnology and Textiles in Scientific Journals
(2009-12) 21
Table 4 Key Areas of Japanese Textile Research . 28
Table 5 Exports, Imports, Production and Domestic Demand in Korea 30
Table 6 Comparisons between Japan, Korea and UK . 31
Table 7 Additional Cost Caused by Adding Nanomaterials (Nanofinish) for Home Textiles 142
Table 8 World's top 15 military spenders (from SIPRI 2011) . 168
Table 9 Non-implantable Materials for Medical Textiles .. 175
Table 10 implantable Materials for Medical Textiles .. 175
Table 11 Extracorporeal Devices for Medical Textiles .. 176
Table 12 Healthcare/Hygiene Products for Medical Textiles .. 176
Table 13 Medical Products and Equipment rank 4th in terms of industry profitability (CNN
Money) . 191
Table 14 Estimated Consumption of Technical Textile in Various Applications Source: Bharat Textile .. 216

Companies Mentioned
Adidas
Adidas Wearable Sports
Advanced Nano Products, Inc.
AdvanPro Limited
Ahlstrom Vaporcool
AiQ Smart Clothing Inc.
Alexium
Algebra
Alltracel Pharmaceuticals
Andeson Bio-tech Co
Applied DNA Sciences
Applied EM
ARC Outdoors
ARC Technologies
Arcteryx,
Asahi Kasei
ASICS
ATHOS
Avelana
Balton Sp. Z.o.o
BASF
Beijing ChamGo Nano-Tech Co
Bekaert Textiles
Belt Tech
Berlei
BigSky Technologies LLC
Bluestar
Bonar Technical Fabrics AG
Bridgedale
Brooks Bros., USA
Bruck Textiles
Burlington Industries, Inc., USA
Canada Goose,
Cardinal Health
CC-NanoChem, Germany
Chamchuree
Chonbang, Co. Ltd.
Ciba Specialty Chemicals
Clariant
Clothing+
Cocona Fabric
Columbia Sportswear Company
Cook Medical
CTT Group
Cube
CuteCircuit
Cyanine Technologies srl
Dainese.
Danfoss PolyPower
Daniel Hechter,
Degussa
Delta Galil Industries Ltd
Denizli Basma ve Boya Sanayii a.s. (DEBA),
Donaldson
Dow Corning
Drapilux
Duke University, USA
DuPont
DuPont Speciality Chemicals
Duro Textiles
Eddie Bauer
Eleksen
Element 47
Elmarco
ELMARCO s.r.o.
EMPA
Endor Nanotechnologies
Energenics
ETTLIN Textiles
Evonik
Exlan Co., Ltd
Fibretronic Limited
Formosa Taffeta
Forster Rohner AG
Foster Miller
Fountain Set (Holdings) Limited
Fuji Electric
G3i Technology Innovations
Gap
Garmont
Goldenlady
Greenyarn
Guahoo
Haojey Co
Henry Lloyd,
Hills Inc
Ho?vding
Hugo Boss
Hyosung
Industrial Nanotech, Inc
Innotech Textile Co. Ltd
International Flavours and Fragrances
Ironman
J-Teck
J2LFA Co. Ltd
Jack Wolfskin
JR Nanotech
JX Nippon Oil and Energy Corporation
Kanebo
Kanebo Spinning Corp
Kao Corp.
Kao Corp. Japan
Kennedy and Violich Architecture
King's Metal Fiber Technologies
KJUS
Kolon, Korea
Kolorgen Ltd
Konarka Technologies Inc
KVA Matx
Land's End, Inc.
Lea Lea Group
Lee Jeans
Levi Strauus
LG Chem
Liberec
Lindenfarb Textilveredlung Julius Probst
Lindstrand Technologies
LLBean
Lockheed Martin Corp
Louis Vuitton
Mammut
Mammut,
Märkische Faser
Marks and Spencer
MBody
MC10
Misfit Wearables
Mission Ready Services
Mitsubishi
Mitsubishi
Nano Phase Technologies Corporation (NTC)
Nano-Group Holdings Ltd
Nano-Tex, USA
NanoCare
NanoChem
Nanocid Pars Nano Nasb
Nanocomp Technologies Inc
Nanocyl
Nanoglide
NanoHorizons
Nanophase
Nanoscience Technologies Incorporated
NanoSonic Inc.,
Nanyan Textiles
nCoat, Inc
New Balance
Nike
No-Contact
Nordstrom
NovaThera
Nucryst Pharmaceuticals
NuMetrex
Nylstar
Odlo
Ohmatex
Old Navy
Oxonica
Paul Stuart
Peerless Plastics and Coatings Ltd
Peter Brehm
PGA
Philips Lighting
Piedmont Chemical Industries, Inc
Pikeaur
Pikeur
Polar Elektro
Polo Ralph Lauren
Protex
Quest International
Radiation Shield Technologies, Inc.,
Radici
Reebock
Reliable
Roudiere
Salewa
Salomon Socks
Samsung
Schill+Seilacher
Schmitz
Schoeller Medical AG
Schoeller Textiles AG
Sefar AG
Seger
Sensing Tex, S.L.
Shanghai Hengjia Textile Company
Simmons
Simms
SNS Nanofiber
Soane Labs
Sony
SparkFun
Sphelar Power Corp.
Struktol
Suzutora
Takeda Chemical Industries
Teijin Fibres Ltd
Tex-Ray
Texnology Nano Textile (China), Ltd.
Textronics
The North Face
Thomson Research Associates Inc
Toray Industries, Inc
Toyobo, Ltd.
Trangoworld
TRG/Victorinox
TWE.
U-Right International Holdings Limited
United Textile Mills
VDS Weaving NV
W.L. Gore
Wacker
WEEL Technologies
Westaim Corporation
Wibur Ross
Wirth Fulda
XS Labs
Zephyr Technology Limited



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