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市場調查報告書

服飾智慧紡織品:市場、用途、技術

Smart Textiles in Apparel: Markets, Applications and Technologies

出版商 Cientifica Ltd 商品編碼 372650
出版日期 內容資訊 英文 219 Pages
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服飾智慧紡織品:市場、用途、技術 Smart Textiles in Apparel: Markets, Applications and Technologies
出版日期: 2016年10月04日內容資訊: 英文 219 Pages
簡介

智慧紡織品/纖維製可戴式技術經過第1世代 (服飾上有感應器)、第2世代 (布料縫入感應器)、第3世代 (纖維本身具感應器機能) 、現在出現了第4世代。纖維製品/時尚業界期待將產生革命性變化、預計至2025年可創造10億美元以上的市場效果。

本報告針對服裝、服飾智慧紡織品 (智慧纖維) 技術、市場分析、全體市場規模、成長率、主要活用分野、用途分類、機能分類最新技術開發、活用狀況、今後技術開發、市場成長預測調查、變化推算。

介紹

市場

  • 全體市場成長率與CAGR (年複合成長率)
    • 用途分類市場成長率
  • 利用技術增加紡織品價值
  • 使用奈米材料的機能性增加價值
  • 商業模式

用途

  • 衣類、服飾
    • 奈米抗菌衣類
      • 銀奈米材料
      • 奈米銀安全性問題
      • 鋅/銅/摻雜氧化鋅
      • 針對紫外線 (UV)/太陽光/放射線的保護
      • 簡單服飾:耐髒、油、水、防皺、防止靜電的衣服
        • 防止螁色
      • 舒適性問題:控制流汗、管理濕氣
      • 防止模仿
    • 現在接受衣服、服裝用纖維奈米技術的企業

運動用、福利用

  • 第1世代技術
    • Under Armour:Healthbox Wearables
    • Adidas:MiCoach
    • Sensoria
    • EMPA長期的研究
  • 第2世代技術
    • Google:Project Jacquard
    • Samsung Creative Lab
    • Microsoft合作
    • Intel:Systems on a Chip (SoC)
    • Flex (Formerly Flextronics)、MAS Holdings
    • Jiobit
    • Asensei:Personal Trainer
    • OmSignal:智慧衣服
    • Ralph Lauren:PoloTech
    • Hexoskin:Performance Management
    • Jabil Circuit:Textile Heart Monitoring
    • Stretch Sense:感應器
    • NTT Data and Toray
    • Goldwin Inc、NTT DOCOMO
    • SupaSpot Inc:智慧感應器
    • Wearable Experiments與品牌行銷
    • Wearable Life Sciences:Antelope
    • Textronics:NuMetrex
  • 第3世代技術
    • AdvanPro:感壓鞋
    • Tamicare:3D列印製造的可戴式機器 (感應器崁入型)
    • AiQ:智慧衣類與不鏽鋼纖維
    • Flex:印刷油墨與導電性纖維
    • Sensing Tech:導電性油墨
    • EHO Textiles:人體運動監控
    • Bebop Sensors:可水洗的電子油墨感應器
    • Fraunhofer Institute for Silicate Research:壓電聚合物感應器
    • CLIM8 GEAR:保濕性紡織品
    • VTT:智慧衣服體溫模式
    • ATTACH (包括可動的冷卻、保溫機能適應紡織品技術)
  • 能源儲存、發電
    • 智慧纖維軍服
      • BAE Systems:Broadsword Spine
      • 可伸縮電池
      • LG Chem:電纜電池
    • 超級電容器
      • Swinburne:石墨烯製超級電容器
      • MIT:鈮、奈米線製造的超級電容器
  • 環境發電
    • 運動能源系
      • StretchSense:能源採集板
      • NASA:環境感應型纖維
    • 太陽光能源系
      • Powertextiles
      • Sphelar Power Corp:Solar Textiles
      • Ohmatex:Powerweave
  • 時尚
    • 第1世代技術
      • Cute Circuit:LED時裝
      • MAKEFASHION:LED時裝
    • 第2世代技術
      • Covestro:發光衣服
    • 第3世代技術
      • 透明性、感溫性染料
      • 娛樂
      • 可戴式體驗行銷

主要技術

  • 電子迴路
    • 布料導電性油墨
    • 伸縮性纖維列印用導電性油墨
    • Creative Materials:導電性油墨、粘著劑
    • Dupont:可伸縮的電子油墨
    • Alink Co:鋁油墨
  • 導電性纖維
    • Circuitex:銀塗層尼龍
    • Textronics:紗線、纖維
    • Novonic:彈力性、導電性紗線
    • 銅塗層PAN (聚丙烯□) 纖維
  • 列印電子
    • Covestro:彈性電路TPU薄膜

感應器

  • 電子式
    • Hitoe
    • Cocomi
    • Panasonic:聚合樹脂
    • 心臟監控
  • 機械式
    • 變化感應器
      • 纖維型、橫編式變化感應器
      • 智慧紡織品用鎖子甲纖維
      • 導電性纖維/感應器奈米處理
      • 感壓性素材
      • 石墨烯製織布
    • 感壓感應器
      • LG Innotek:彈性纖維、壓力感應器
      • Hong Kong Polytechnic University:感壓式纖維
      • 導電性聚合複合體塗料
      • 移動捕捉用列印紡織品、感應器
  • 環境
    • 光髮色性紡織品
    • 溫度
      • Sefar PowerSens
    • 氣體、化學物質
      • 纖維狀氣體感應器
  • 能源
    • 儲存
      • 石墨烯製超級電容器
      • 鈮、奈米線製造的超級電容器
      • Stretchy:超級電容器
    • 能源發電
      • StretchSense:能源採集組
      • 壓電性、熱電性覆蓋纖維
  • 光學感應器
    • 發光
      • University of Manchester:發光性油墨、紗線
      • Polyera Wove

分析企業

從事奈米技術纖維產品應用研究的企業/研究機關

Industry

主要企業檔案

圖表一覽

目錄

A new report from Cientifica Research, Smart Textiles in Apparel: Markets, Applications and Technologies examines the markets for textile based wearable technologies, the companies producing them and the enabling technologies. This is creating a 4th industrial revolution for the textiles and fashion industry worth over $100 billion by 2025.

Advances in fields such as nanotechnology, organic electronics (also known as plastic electronics) and conducting polymers are creating a range of textile-based technologies with the ability to sense and react to the world around them. This includes monitoring biometric data such as heart rate, the environmental factors such as temperature and The presence of toxic gases producing real time feedback in the form of electrical stimuli, haptic feedback or changes in color.

The report identifies three distinct generations of textile wearable technologies.

  • 1. First generation is where a sensor is attached to apparel and is the approach currently taken by major sportswear brands such as Adidas, Nike and Under Armour
  • 2. Second generation products embed the sensor in the garment as demonstrated by products from Samsung, Alphabet, Ralph Lauren and Flex.
  • 3. In third generation wearables the garment is the sensor and a growing number of companies including AdvanPro, Tamicare and BeBop sensors are making rapid progress in creating pressure, strain and temperature sensors.
  • 4.

Third generation wearables represent a significant opportunity for new and established textile companies to add significant value without having to directly compete with Apple, Samsung and Intel.

The report predicts that the key growth areas will be initially sports and wellbeing followed by medical applications for patient monitoring and fashion. Technical textiles, fashion and entertainment will also be significant applications with the total market expected to rise to over $100 billion by 2025 with triple digit compound annual growth rates across many applications.

The rise of textile wearables also represents a significant opportunity for manufacturers of the advanced materials used in their manufacture. Toray, Panasonic, Covestro, DuPont and Toyobo are already suppling the necessary materials, while researchers are creating sensing and energy storage technologies, from flexible batteries to graphene supercapacitors which will power tomorrows wearables. The report examines the markets, details the latest advances and their applications.

Companies Mentioned

  • Adidas
  • AdvanPro Limited
  • AIQ
  • ALATEX
  • Alink Co., Ltd
  • Alphabet
  • Analog Devices
  • Athos
  • Baar
  • BAE Systems
  • Barclays
  • BeBop Sensors
  • Bischoff Textil AG,
  • Bonar Technical Fabrics NV,
  • Borgstena Group
  • Chromat
  • Cintas
  • Clothing+
  • Covestra
  • Creative Materials
  • Cute Circuit
  • Cyanine Technologies srl,
  • DuPont
  • Durex
  • EHO Textiles
  • Endomondo,
  • ETH Zurich, Wearable Computing Lab;
  • Flex
  • Forster Rohner
  • Foster Rohner
  • Fraunhofer Institute for Silicate Research
  • Goldwin Inc.
  • Google
  • Heddoko
  • Huenenberg;
  • IMEC
  • Intel
  • Intelligent Textiles Ltd
  • JabilCircuit
  • King's Metal Fiber Technologies
  • Konarka
  • Levi's
  • LG Chem
  • LG Innotek
  • Lindstrand Technologies,
  • Lumo Bodytech
  • Lyle & Scott
  • Makefashion
  • MapMyRun
  • MAS Holdings
  • Medical Engineering Lab;
  • Microsoft
  • Noble Biomaterials Inc
  • Novonic
  • NTB Buchs,
  • NTT Corporation
  • Odlo International AG,
  • Ohmatex
  • Panasonic
  • Peerless Plastics & Coatings Ltd,
  • PLUX
  • PolarBeat
  • Polyera
  • Powertextiles Limited
  • Ralph Lauren
  • Schiller AG,
  • Sefar AG,
  • Sensing Tech S.L.
  • Sensoglove
  • Sensoria
  • Serge Ferrari SA,
  • Sphelar Power
  • St. Gallen
  • StartToday
  • Steinhausen
  • Strava,
  • Strela Development AG,
  • StretchSense
  • SUPA
  • SupaSpot Inc
  • Swarovski
  • Swiss Textile School STF,
  • Tamicare
  • Tex Ray Group
  • Textronics
  • The Unseen
  • Toray Industries
  • Toyobo Co Ltd
  • TWI
  • Umicore Materials AG
  • Unaxis Balzers AG
  • Under Armour
  • Unico Swiss Tex GmbH
  • VDS Weaving NV.
  • VTT Research Centre Finland
  • W. Zimmermann GmbH & Co. KG
  • Wearable Experiments
  • Wearable Life Sciences
  • Xotox
  • Zietromec
  • ZOZOTOWN

Table of Contents

Contents

List of Tables

List of Figures

Introduction

  • How to Use This Report
  • Wearable Technologies and the 4Th Industrial Revolution
  • The Evolution of Wearable Technologies
  • Defining Smart Textiles
  • Factors Affecting The Adoption of Smart Textiles
    • Cost
    • Accuracy
    • On Shoring
    • Power management
    • Security and Privacy

Markets

  • Total Market Growth and CAGR
    • Market Growth By Application
  • Adding Value To Textiles Through Technology
  • How Nanomaterials Add Functionality and Value
  • Business Models

Applications

  • Clothing and Apparel
    • Nano-Antibacterial Clothing Textiles
      • Silver Nanoparticles
      • Nanosilver Safety Concerns
      • Zinc/Copper/Doped Zinc Oxides
      • UV/Sun/Radiation Protection
      • Hassle-free Clothing: Stain/Oil/Water Repellence, Anti-Static, Anti-Wrinkle
        • Anti-Fade
      • Comfort Issues: Perspiration Control, Moisture Management
      • Creative Appearance and Scent for High Street Fashions
      • Anti-Counterfeiting
    • Current Adopters of Nanotechnology in Clothing/Apparel Textiles

Sports and Wellbeing

  • 1st Generation Technologies
    • Under Armour Healthbox Wearables
    • Adidas MiCoach
    • Sensoria
    • EMPA's Long Term Research
  • 2nd Generation Technologies
    • Google's Project Jacquard
    • Samsung Creative Lab
    • Microsoft Collaborations
    • Intel Systems on a Chip
    • Flex (Formerly Flextronics) and MAS Holdings
    • Jiobit
    • Asensei Personal Trainer
    • OmSignal Smart Clothing
    • Ralph Lauren PoloTech
    • Hexoskin Performance Management
    • Jabil Circuit Textile Heart Monitoring
    • Stretch Sense Sensors
    • NTT Data and Toray
    • Goldwin Incand DoCoMo
    • SupaSpot Inc Smart Sensors
    • Wearable Experiments and Brand Marketing
    • Wearable Life Sciences Antelope
    • Textronics NuMetrex
  • 3rd Generation Technologies
    • AdvanPro Pressure Sensing Shoes
    • Tamicare 3D printed Wearables with Integrated Sensors
    • AiQ Smart Clothing Stainless Steel Yarns
    • Flex Printed Inks And Conductive Yarns
    • Sensing Tech Conductive Inks
    • EHO Textiles Body Motion Monitoring
    • Bebop Sensors Washable E-Ink Sensors
    • Fraunhofer Institute for Silicate Research Piezolectric Polymer Sensors
    • CLIM8 GEAR Heated Textiles
    • VTT Smart Clothing Human Thermal Model
    • ATTACH (Adaptive Textiles Technology with Active Cooling and Heating)
  • Energy Storage and Generation
    • Intelligent Textiles Military Uniforms
      • BAE Systems Broadsword Spine
      • Stretchable Batteries
      • LG Chem Cable Batteries
    • Supercapacitors
      • Swinburne Graphene Supercapacitors
      • MIT Niobium Nanowire Supercapacitors
  • Energy Harvesting
    • Kinetic
      • StretchSense Energy Harvesting Kit
      • NASA Environmental Sensing Fibers
    • Solar
      • Powertextiles
      • Sphelar Power Corp Solar Textiles
      • Ohmatex and Powerweave
  • Fashion
    • 1st Generation Technologies
      • Cute Circuit LED Couture
      • MAKEFASHION LED Couture
    • 2nd Generation Technologies
      • Covestro Luminous Clothing
    • 3rd Generation Technologies
      • The Unseen Temperature Sensitive Dyes
      • Entertainment
      • Wearable Experiments Marketing

Key Technologies

  • Circuitry
    • Conductive Inks for Fabrics
    • Conductive Ink For Printing On Stretchable Fabrics
    • Creative Materials Conductive Inks And Adhesives
    • Dupont Stretchable Electronic Inks
    • Aluminium Inks From Alink Co
  • Conductive Fibres
    • Circuitex Silver Coated Nylon
    • Textronics Yarns and Fibres
    • Novonic Elastic Conductive Yarn
    • Copper Coated Polyacrylonitrile (PAN) Fibres
  • Printed electronics
    • Covestro TPU Films for Flexible Circuits

Sensors

  • Electrical
    • Hitoe
    • Cocomi
    • Panasonic Polymer Resin
    • Cardiac Monitoring
  • Mechanical
    • Strain
      • Textile-Based Weft Knitted Strain Sensors
      • Chain Mail Fabric for Smart Textiles
      • Nano-Treatment for Conductive Fiber/Sensors
      • Piezoceramic materials
      • Graphene-Based Woven Fabric
    • Pressure Sensing
      • LG Innotek Flexible Textile Pressure Sensors
      • Hong Kong Polytechnic University Pressure Sensing Fibers
      • Conductive Polymer Composite Coatings
      • Printed Textile Sensors To Track Movement
  • Environment
    • Photochromic Textiles
    • Temperature
      • Sefar PowerSens
    • Gasses & Chemicals
      • Textile Gas Sensors
  • Energy
    • Storage
      • Graphene Supercapacitors
      • Niobium Nanowire Supercapacitors
      • Stretchy supercapacitors
    • Energy Generation
      • StretchSense Energy Harvesting Kit
      • Piezoelectric Or Thermoelectric Coated Fibres
  • Optical
    • Light Emitting
      • University of Manchester Electroluminescent Inks and Yarns
      • Polyera Wove

Companies Mentioned

Companies/Research Institutes Applying Nanotechnologies to the Textile

Industry

Selected Company Profiles

List of Tables

  • Table 1 CAGR by application
  • Table 2 Value of market by application 2016-25 (millions USD)
  • Table 3 % market share by application
  • Table 4 CAGR 2016-25 by application
  • Table 5 Technology-Enabled Market Growth in Textile by Sector (2016-22) 31!
  • Table 6 Value of nanomaterials by sector 2016-22 ($ Millions)
  • Figure 1 The 4th Industrial Revolution (World Economic Forum)
  • Figure 2 Block Diagram of typical MEMS digital output motion sensor: ultra low-power high performance 3-axis "femto" accelerometer used in fitness tracking devices
  • Figure 3 Interior of Fitbit Flex device (from iFixit)
  • Figure 4 Internal layout of Fitbit FlexRed is the main CPU, orange is the BTLE chip, blue is a charger, yellow is the accelerometer (from iFixit)
  • Figure 5 Intel's Curie processor stretches the definition of 'wearable'
  • Figure 6 Typical Textile Based Wearable System Components
  • Figure 7 The Chromat Aeros Sports Bra "powered by Intel, inspired by wind, air and flight."
  • Figure 8 The Evolution of Smart textiles
  • Figure 9 Goldwin's C2fit IN-pulse sportswear using Toray's Hitoe
  • Figure 10 Sensoglove reads grip pressure for golfers
  • Figure 11 Textile Based Wearables Growth 2016-25(USD Millions)
  • Figure 12 Total market for textile based wearables 2016-25 (USD Millions)
  • Figure 13 Health and Sports Market Size 2016-20 (USD Millions)
  • Figure 14 Health and Sports Market Size 2016-25 (USD Millions)
  • Figure 15 Critical steps for obtaining FDA medical device approval
  • Figure 16 Market split between wellbeing and medical 2016-25
  • Figure 17 Current World Textile Market by Sector (2016)
  • Figure 18 The Global Textile Market By Sector ($ Millions)
  • Figure 19 Compound Annual Growth Rates (CAGR) by Sector (2016-25)
  • Figure 20 The Global Textile Market in 2022
  • Figure 21 The Global Textile Market in 2025
  • Figure 22 Textile Market Evolution (2012-2025)
  • Figure 23 Total Value of Nanomaterials in Textiles 2012-2022 ($ Millions)
  • Figure 24 Value of Nanomaterials in Textiles by Sector 2016-2025 ($ Millions)
  • Figure 25 'Intimacy White' and 'Intimacy Black' introduced by the Dutch firm Studio Roosegaarde
  • Figure 26 Functional fashion Levi's using Schoeller's nanosphere technology
  • Figure 27 The Market for Anti-Bacterial Textiles
  • Figure 28 How antibacterial 'SmartSilver works
  • Figure 29 Typical delivery formats of nano silver (from NanoHorizons Inc.)
  • Figure 30 A fiber coated with silver nanoparticles
  • Figure 31 BASF Ultramid BS416N® with TiO2 nanoparticles for UV protection
  • Figure 32 Oil resistance of Inanova®
  • Figure 33 Klimeo - Microcapsules containing a natural temperature-regulating ingredient are applied in and on the fabric
  • Figure 34 Karma Chameleon Chenille Strip Prototype - photonic bandgap (PBG) fibers woven on a computer-controlled electronic Jacquard loom
  • Figure 35 Karma Chameleon Leaf pattern using a white cotton warp, a white cotton weft and a PBG fiber weft to create individual illuminated designs
  • Figure 36 Products with Nano-Metal Coating Effect, Courtesy of Suzutora
  • Figure 37 Teijin's Morphotex allows colors without the use of dyes
  • Figure 38 Donna Sgro's Morphotex dress
  • Figure 39 Garments treated with metallic nanoparticles from the fashion line, "Glitterati
  • Figure 40 Clothing designed by Olivia OngThe dress and jacket contain nanoparticles with antibacterial and air-purifying qualities
  • Figure 41 A scanning electron microscope image showing a cotton fiber with palladium nanoparticle coating
  • Figure 42 Smart Fabrics Offer Designers New Possibilities in Fashion
  • Figure 43 Nanotechnology Enabled Clothing/Apparel Textiles Market 2016- 2022
  • Figure 44 Value of Nanotech Inputs in Clothing Textiles 2012-22
  • Figure 45 Adidas miCoach Connect Heart Rate Monitor
  • Figure 46 Sensoria's Hear Rate Monitoring Garments
  • Figure 47 Flexible components used in Google's Project Jacquard
  • Figure 48 Google and Levi's Smart Jacket
  • Figure 49 Embedded electronics Google's Project Jacquard
  • Figure 50 Samsung's WELT 'smart' belt
  • Figure 51 Samsung Body Compass at CES16
  • Figure 52 Lumo Run washable motion sensor
  • Figure 53 OMSignal's Smart Bra
  • Figure 54 PoloTech Shirt from Ralph Lauren
  • Figure 55 Hexoskin Data Acquisition and Processing
  • Figure 56 Peak+™ Hear Rate Monitoring Garment
  • Figure 57 StretchSense CEO Ben O'Brien, with a fabric stretch sensor
  • Figure 58 C3fit Pulse from Goldwin Inc
  • Figure 59 The Antelope Tank-Top
  • Figure 60 Sportswear with integrated sensors from Textronix
  • Figure 61 AdvanPro's pressure sensing insoles
  • Figure 62 AdvanPro's pressure sensing textile
  • Figure 63 Tamicare 3D Printing Sensors and Apparel
  • Figure 64 Smart clothing using stainless steel yarns and textile sensors from AiQ
  • Figure 65 EHO Smart Sock
  • Figure 66 BeBop Smart Car Seat Sensor
  • Figure 67 Non-transparent printed sensors from Fraunhofer ISC
  • Figure 68 Clim8 Intelligent Heat Regulating Shirt
  • Figure 69 Temperature regulating smart fabric printed at UC San Diego
  • Figure 70 Intelligent Textiles Ltd smart uniform
  • Figure 71 BAE Systems Broadsword Spine
  • Figure 72 LG Chem cable-shaped lithium-ion battery powers an LED display even when twisted and strained
  • Figure 73 Supercapacitor yarn made of niobium nanowires
  • Figure 74 Sphelar Textile
  • Figure 75 Sphelar Textile Solar Cells
  • Figure 76 Katy Perry wears Cute Circuit in 2010
  • Figure 77 Cute Circuit K Dress
  • Figure 78 MAKEFASHION runway at the Brother's "Back to Business" conference, Nashville 2016
  • Figure 79 Covestro material with LEDs are positioned on formable films made from thermoplastic polyurethane (TPU)
  • Figure 80 Unseen headpiece, made of 4000 conductive Swarovski stones, changes color to correspond with localized brain activity
  • Figure 81 Eighthsense a coded couture piece
  • Figure 82 Durex Fundawear
  • Figure 83 Printed fabric sensors from the University of Tokyo
  • Figure 84 Tony Kanaan's shirt with electrically conductive nano-fibers
  • Figure 85 Panasonic stretchable resin technology
  • Figure 86 Nanoflex moniroring system
  • Figure 87 Knitted strain sensors
  • Figure 88 Chain Mail Fabric for Smart Textiles
  • Figure 89 Electroplated Fabric
  • Figure 90 LG Innotek flexible textile pressure sensors
  • Figure 91 Smart Footwear installed with fabric sensors(Credit: Image courtesy of The Hong Kong Polytechnic University)
  • Figure 92 SOFTCEPTOR™ textile strain sensors
  • Figure 93 conductive polymer composite coating for pressure sensing
  • Figure 94 Fraunhofer ISC_ printed sensor
  • Figure 95 The graphene-coated yarn sensor(Image: ETRI)
  • Figure 96 Supercapacitor yarn made of niobium nanowires
  • Figure 97 StretchSense Energy Harvesting Kit
  • Figure 98 Energy harvesting textiles at the University of Southampton
  • Figure 99 Polyera Wove Flexible Screen
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