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Eテキスタイル・スマートクロージングの世界市場

The Global Market for Electronic Textiles (E-Textiles) and Smart Clothing

出版日: | 発行: Future Markets, Inc. | ページ情報: 英文 145 Pages, 35 Figures, 30 Tables | 納期: 即納可能 即納可能とは

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Eテキスタイル・スマートクロージングの世界市場
出版日: 2020年09月23日
発行: Future Markets, Inc.
ページ情報: 英文 145 Pages, 35 Figures, 30 Tables
納期: 即納可能 即納可能とは
  • 全表示
  • 概要
  • 目次
概要

先進技術の進歩と急速に変化する世界的な需要に基づき、テキスタイルに対する統合エレクトロニクスと応答機能の開発により、ウェアラブルエレクトロニクスの革命に対応する、Eテキスタイルとスマートテキスタイルが登場しました。スマートテキスタイルは、インテリジェントテキスタイル、スマートウェア、スマートウェアとも呼ばれます。

当レポートでは、世界のEテキスタイル・スマートクロージング市場について調査分析し、市場の促進要因、応用・市場・製品、世界の市場規模、市場の課題、主要企業などについて、体系的な情報を提供しています。

目次

第1章 エグゼクティブサマリー

第2章 調査手法

第3章 世界のEテキスタイル・スマートクロージング市場

  • 市場促進要因
  • 素材・コンポーネント
    • 導電性・伸縮性ヤーン
    • 導電性ポリマー
    • 導電性コーティング
    • 導電性インク
    • ナノマテリアル
  • 応用・市場・製品
    • スマートクロージング製品
    • 温度モニタリング・調節
    • 伸縮性Eファブリック
    • スポーツ・フィットネス
    • スマートフットウェア
    • 軍事/防衛
    • 医療・ヘルスケア
    • 工業・ワークプレースモニタリング
    • フレキシブル・ウェアラブルディスプレイ広告
    • Eテキスタイルへの電力供給
  • 世界の市場規模
  • 市場の課題

第4章 企業プロファイル(79社の企業プロファイル)

第5章 参考文献

目次
Product Code: TEXT3ED20

Traditional textiles simply function as a covering material. Based on the rapidly changing global demands and due to advanced technological improvements, the development of integrated electronics and responsive functionality on textiles has led to the emergence of E-textiles and smart textiles accommodating the revolution we are witnessing in wearable electronics. The development of high value-added products such as smart fabrics and clothing, wearable consumer and medical devices and protective textiles has increased rapidly in the last decade. Recent advances in stimuli-responsive surfaces and interfaces, sensors and actuators, flexible electronics, nanocoatings and conductive nanomaterials has led to the development of a new generation of smart and adaptive electronic fibers, yarns and fabrics for application in E-textiles.

Advances in the ability to free-form print circuit processes enables electronic systems to be assembled directly onto textile items. This type of technology, "E-textiles," will compete with existing wearable devices that have dominated the market (smartwatches and fitness trackers), as a more discrete alternative to health and physiological monitoring. Electronic textiles incorporate interdisciplinary studies such as textiles, nano/micro technologies, computing systems, and communications and information technologies.

Smart textiles, also known as intelligent textiles, smart wear and smart clothing, can be described as materials which can sense and react to environmental conditions or stimuli according to thermal, mechanical, electrical, magnetic, or other bases. They can be divided into two major categories i) active, and ii) passive smart textiles. Passive smart textiles can change their situation according to environmental stimuli while active smart textiles are equipped with sensors and actuators that can detect several signals from the environment and then give a meaningful response.

Report contents include:

  • Market drivers and trends in electronic textiles (E-textiles) and smart clothing.
  • Materials and components analysis.
  • Applications and markets including smart clothing products, heated clothing, sports and fitness, smart footwear, military, medical and healthcare, workplace monitoring, wearable advertising and power sources for E-textiles.
  • Global market size by market, forecast to 2027.
  • 79 company profiles including BioSerenity SAS, Clim8, Chronolife, Conductive Transfers, Descente Ltd., Devan Chemicals and more.

TABLE OF CONTENTS

1 EXECUTIVE SUMMARY

  • 1.1 The evolution of electronics
    • 1.1.1 The wearables revolution
    • 1.1.2 Wearable market leaders
    • 1.1.3 Flexible, stretchable, thin, and large-area form factors
    • 1.1.4 Evolution of E-Textiles
    • 1.1.5 From rigid to flexible and stretchable
    • 1.1.6 Organic and printed electronics
    • 1.1.7 New conductive materials
    • 1.1.8 Future growth
    • 1.1.9 Nanotechnology as a market driver for E-textiles and smart textiles
    • 1.1.10 Growth in remote health monitoring and diagnostics
    • 1.1.11 Thermal management (heated clothing)
    • 1.1.12 Growth in the market for anti-microbial textiles
    • 1.1.13 Need to improve the properties of cloth or fabric materials

2 RESEARCH METHODOLOGY

3 THE GLOBAL MARKET FOR ELECTRONIC TEXTILES (E-TEXTILES) AND SMART CLOTHING

  • 3.1 MARKET DRIVERS
  • 3.2 MATERIALS AND COMPONENTS
    • 3.2.1 Conductive and stretchable yarns
    • 3.2.2 Conductive polymers
      • 3.2.2.1 PDMS
      • 3.2.2.2 PEDOT: PSS
    • 3.2.3 Conductive coatings
    • 3.2.4 Conductive inks
    • 3.2.5 Nanomaterials
      • 3.2.5.1 Nanocoatings in smart textiles
      • 3.2.5.2 Graphene
      • 3.2.5.3 Nanofibers
      • 3.2.5.4 Carbon nanotubes
        • 3.2.5.4.1 E-textiles
        • 3.2.5.4.2 Anti-static textiles
        • 3.2.5.4.3 Flame retardant coatings
      • 3.2.5.5 Phase change materials
        • 3.2.5.5.1 Temperature controlled fabrics
  • 3.3 APPLICATIONS, MARKETS AND PRODUCTS
    • 3.3.1 Smart clothing products
    • 3.3.2 Temperature monitoring and regulation
    • 3.3.3 Stretchable E-fabrics
    • 3.3.4 Sport & fitness
    • 3.3.5 Smart footwear
    • 3.3.6 Military/Defence
    • 3.3.7 Medical and healthcare
      • 3.3.7.1 Biometric monitoring
      • 3.3.7.2 ECG sensors
    • 3.3.8 Industrial and workplace monitoring
    • 3.3.9 Flexible and wearable display advertising
    • 3.3.10 Powering E-textiles
      • 3.3.10.1 Batteries
      • 3.3.10.2 Supercapacitors
      • 3.3.10.3 Energy harvesting
        • 3.3.10.3.1 Photovoltaic solar textiles
        • 3.3.10.3.2 Energy harvesting nanogenerators
          • 3.3.10.3.2.1 TENGs
          • 3.3.10.3.2.2 PENGs
        • 3.3.10.3.3 Radio frequency (RF) energy harvesting
  • 3.4 GLOBAL MARKET SIZE
  • 3.5 MARKET CHALLENGES

4 COMPANY PROFILES 80 (79 COMPANY PROFILES)

5 REFERENCES

Tables

  • Table 1. Types of wearable devices and applications.
  • Table 2. Wearable market leaders by market segment.
  • Table 3. Examples of smart clothing products, by generation.
  • Table 4. Timeline of different generations of smart textiles.
  • Table 5. Advanced materials for Printed, flexible and stretchable sensors and Electronics-Advantages and disadvantages.
  • Table 6. Sheet resistance (RS) and transparency (T) values for transparent conductive oxides and alternative materials for transparent conductive electrodes (TCE).
  • Table 8. Applications in textiles, by nanomaterials type and benefits thereof.
  • Table 9. Desirable functional properties for the textiles industry afforded by the use of nanomaterials.
  • Table 10. Heated jacket products.
  • Table 11. Market drivers for electronic textiles and smart clothing.
  • Table 12. Types of smart textiles.
  • Table 13. Examples of smart textile products.
  • Table 14. Types of flexible conductive polymers, properties and applications.
  • Table 15. Typical conductive ink formulation.
  • Table 16. Comparative properties of conductive inks.
  • Table 17. Applications in textiles, by advanced materials type and benefits thereof.
  • Table 18. Nanocoatings applied in the textiles industry-type of coating, nanomaterials utilized, benefits and applications.
  • Table 19. Applications and benefits of graphene in textiles and apparel.
  • Table 20. Properties of CNTs and comparable materials.
  • Table 21. Applications and markets for e-textiles.
  • Table 22. Commercially available smart clothing products.
  • Table 23. Electronic textiles products.
  • Table 24. Heated jacket products.
  • Table 25. Examples of materials used in flexible heaters and applications.
  • Table 26. Companies and products in smart footwear.
  • Table 27.Wearable electronics applications in the military.
  • Table 28. Comparison of prototype batteries (flexible, textile, and other) in terms of area-specific performance.
  • Table 29. Global electronic textiles and smart clothing market 2017-2030, revenues (billions USD).
  • Table 30. Market challenges in electronic textiles and smart clothing.

Figures

  • Figure 1. Evolution of electronics.
  • Figure 2. Timeline of different generations of E-textiles.
  • Figure 3. Wove Band.
  • Figure 4. Wearable graphene medical sensor.
  • Figure 5. Applications timeline for organic and printed electronics.
  • Figure 7. Baby Monitor.
  • Figure 8. Wearable health monitor incorporating graphene photodetectors.
  • Figure 9. Conductive yarns.
  • Figure 10. Conductive yarns.
  • Figure 11. SEM image of cotton fibers with PEDOT:PSS coating.
  • Figure 12. Applications of graphene in smart textiles and apparel.
  • Figure 13. Anti-static textile product incorporating SWCNTs.
  • Figure 14. Formation of a protective CNT-based char layer during combustion of a CNT-modified coating.
  • Figure 15. PCM cooling vest.
  • Figure 16. Myant sleeve tracks biochemical indicators in sweat.
  • Figure 17. iStimUweaR .
  • Figure 18. Digitsole Smartshoe.
  • Figure 19. Wearable medical technology.
  • Figure 20. VitalPatch.
  • Figure 21. Wearable ECG-textile.
  • Figure 22. Wearable ECG recorder.
  • Figure 23. Nexkin™.
  • Figure 24. Wearable gas sensor.
  • Figure 25. Basketball referee Royole fully flexible display.
  • Figure 26. Micro-scale energy scavenging techniques.
  • Figure 27. Schematic illustration of the fabrication concept for textile-based dye-sensitized solar cells (DSSCs) made by sewing textile electrodes onto cloth or paper.
  • Figure 28 . 3D print piezoelectric material.
  • Figure 29. Global electronic textiles and smart clothing market 2017-2030, revenues (billions USD).
  • Figure 30. Global market for electronic textiles and smart clothing, 2017-2027, by market share of product type.
  • Figure 31. PowerWalk®.
  • Figure 32. Graphene dress. The dress changes colour in sync with the wearer's breathing.
  • Figure 33. Descante Solar Thermo insulated jacket.
  • Figure 34. G+ Graphene Aero Jersey.
  • Figure 35. Graphene Functional Membranes - UniTran GM.
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