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繊維産業向けナノテクノロジーのアプリケーションと世界市場

Global Markets and Applications for Nanotechnology for the Textiles Industry

発行 Technology Transfer Centre 商品コード 125847
出版日 ページ情報 英文 142 Pages
納期: 即日から翌営業日
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繊維産業向けナノテクノロジーのアプリケーションと世界市場 Global Markets and Applications for Nanotechnology for the Textiles Industry
出版日: 2010年02月28日 ページ情報: 英文 142 Pages

当商品の販売は、2016年07月01日を持ちまして終了しました。

概要

当レポートでは、繊維産業向けナノテクノロジーの収益予測、生産技術、市場へのアプリケーション、主なナノテクノロジー、動向と促進因子、企業プロファイル、および2015年までの主なアプリケーション分野と市場機会についてまとめ、概略以下の構成でお届けいたします。

第1章 イントロダクション

  • 繊維産業におけるナノスケール技術
  • なぜナノなのか
  • 生産技術

第2章 主なナノテクノロジー

  • ナノ粒子
  • ナノコンポジット
  • ナノカプセル
  • ナノポーラス材料
  • ナノファイバー
  • カーボンナノチューブ
  • ナノコーティング

第3章 ナノスケール技術の繊維市場

  • 2015年までの主なアプリケーションと市場機会
  • 繊維産業におけるナノマテリアル市場
    • ナノコーティング
    • スマートマテリアルおよびセンサー
    • ナノファイバー・ナノチューブ
  • 主要企業

第4章 技術デベロッパー

  • 医療用繊維向け多機能コーティング
  • 研究センター
  • 大学

第5章 用語の定義

目次

Abstract

Description

Stain repellent fabrics and textiles are already on the market incorporating nanomaterials, as are nanocrystalline based wound dressings and patches for delivery of anti-microbials and aromatherapeutics. Future developments of nanotechnology in textiles with have a two-fold focus:

  • Upgrading the existing functions and performances of textile materials;
  • Developing smart and intelligent textiles with unprecedented functions.

The latter development is more urgent from the standpoint of homeland security and advancement of technology. The new functionalities which can be expected to be developed include:

  • Wearable solar cell and energy storage;
  • Sensors and information acquisition and transfer;
  • Multiple and sophisticated protection and detection;
  • Healthcare and wound healing functions;
  • Self-cleaning and repairing functions.

This study provides a comprehensive assessment of exciting opportunities for diversification for the textile industry. Properties affected by nanotechnology include: UV Protection; Hydrophilicity; Hydrophobicity, Water and Oil Repellence; Thermal Comfort; Flame Retardancy; Anti-bacterialism; Electrical Conductivity; Colouration, Abrasion Prevention and Mechanical Resistance.

Contents include:

  • Global revenue forecasts
  • Production techniques
  • Market applications
  • Key nanotechnologies
  • Key trends and drivers
  • Key players
  • Key Applications and market opportunity to 2015

Report Statistics

  • Pages: 142
  • Format: PDF and hard copy
  • Published: February 2010

Table of Contents

1. INTRODUCTION

  • 1.1 NANOSCALE TECHNOLOGIES IN TEXTILES
  • 1.2 WHY NANO?
    • 1.2.1 UV Protection
    • 1.2.2 Hydrophilicity
    • 1.2.3 Water and Oil Repellence
    • 1.2.4 Thermal Comfort
    • 1.2.5 Flame Retardancy
    • 1.2.6 Anti-bacterialism
    • 1.2.7 Anti-Static
    • 1.2.8 Wrinkle resistance
    • 1.2.9 Electical Conductivity
    • 1.2.10 Coloration and Abrasion Prevention
    • 1.2.11 Mechanical Resistance
  • 1.3 PRODUCTION TECHNIQUES
    • 1.3.1 Cold plasma technology
    • 1.3.2 Metal sputtering technology and metallic nanoparticles
    • 1.3.3 Colloidal solutions
    • 1.3.4 Sol-gel synthesis
    • 1.3.5 Electrospinning

2. KEY NANOTECHNOLOGIES

  • 2.1 NANOPARTICLES
    • 2.1.1 The global market for nanoporous materials
    • 2.1.2 KEY PLAYERS
      • 2.1.2.1 Manufacturers and end users
      • 2.1.2.2 Nanomaterials suppliers
      • 2.1.2.3 Application developers
  • 2.2 NANOCOMPOSITES
    • 2.2.1 The global market for nanocomposites
    • 2.2.2 KEY PLAYERS
      • 2.2.2.1 Manufacturers and end users
      • 2.2.2.2 Nanomaterials suppliers
      • 2.2.2.3 Application developers
  • 2.3 NANOCAPSULES
    • 2.3.1 The global market for nanocapsules
    • 2.3.2 KEY PLAYERS
      • 2.3.2.1 Manufacturers and end users
      • 2.3.2.2 Nanomaterials suppliers
      • 2.3.2.3 Application developers
  • 2.4 NANOPOROUS MATERIALS
    • 2.4.1 The global market for nanoporous materials
    • 2.4.2 KEY PLAYERS
      • 2.4.2.1 Manufacturers and end users
      • 2.4.2.2 Nanomaterials suppliers
      • 2.4.2.3 Application developers
  • 2.5 NANOFIBRES
    • 2.5.1 The global market for nanofibres
    • 2.5.2 KEY PLAYERS
      • 2.5.2.1 Manufacturers and end users
      • 2.5.2.2 Nanomaterials suppliers
      • 2.5.2.3 Application developers
  • 2.6 CARBON NANOTUBES
    • 2.6.1 The global market for carbon nanotubes
    • 2.6.2 KEY PLAYERS
      • 2.6.2.1 Manufacturers and end users
      • 2.6.2.2 Nanomaterials suppliers
      • 2.6.2.3 Application developers
  • 2.7 NANOCOATINGS
    • 2.7.1 The global market for nanocoatings
    • 2.7.2 KEY PLAYERS
      • 2.7.2.1 Manufacturers and end users
      • 2.7.2.2 Nanomaterials suppliers
      • 2.7.2.3 Application developers

3. THE MARKET FOR NANOSCALE TECHNOLOGIES TEXTILES

  • 3.1.1 Key applications and market opportunity to 2015
  • 3.1.2 The global market for nanomaterials in textiles
    • 3.1.2.1 Nanocoatings
    • 3.1.2.2 Smart materials & sensors
    • 3.1.2.3 Nanofibres/nanotubes
  • 3.1.3 KEY PLAYERS

4. TECHNOLOGY DEVELOPERS

  • 4.1 Multifunctional coatings for medical textile applications
    • 4.1.1 Nano-additives for textiles treatments
    • 4.1.2 Anti-microbials that can be used on textiles without impairing the water absorbency or softness of the product
    • 4.1.3 Improved switch and sensor designs, textile switches and sensors, and electronic noses
    • 4.1.4 Waterproof coatings for textiles
    • 4.1.5 High throughput and low-cost technological solutions for functionalizing solid substrates
    • 4.1.6 Nano-silver particles in natural and manmade non woven materials
    • 4.1.7 Nanofibres for textiles
    • 4.1.8 Nanoscale-engineered additives for fibre and fabric-based products
    • 4.1.9 Bioactive wound dressing
    • 4.1.10 Anti-microbial textiles based on nanosilver
    • 4.1.11 Electrically conductive textiles
    • 4.1.12 Anti-microbial textile coatings
    • 4.1.13 Nanoparticles of bamboo charcoal
    • 4.1.14 Impregnated textiles
    • 4.1.15 Electrospinning of nanofibres and continuous nanofibres yarns
    • 4.1.16 Finishes based on nanotechnology for spill resistance and stain repellency
    • 4.1.17 Surface modification of textile materials to obtain anti-bacterial properties
    • 4.1.18 Textiles with new luminescent properties
    • 4.1.19 Nanofibres with anti-bacterial properties
    • 4.1.20 Stain and water repellent textiles
    • 4.1.21 Electrically conductive textiles
    • 4.1.22 Polymer nanomaterials for electrically conductive e-textiles
    • 4.1.23 Transparent nanoscale surface coating for architectural textiles, airbag coatings and protective clothing
    • 4.1.24 Nano additives for textiles treatments
    • 4.1.25 High performance additives and masterbatches for synthetic fibres
    • 4.1.26 Nanosilver impregnated textiles
    • 4.1.27 Photocatalytic textiles
    • 4.1.28 Anti-microbial fibres and fabrics
    • 4.1.29 Bioactive wound dressings
    • 4.1.30 Anti-microbial textiles based on nanosilver
    • 4.1.31 Nanoparticles of bamboo charcoal
    • 4.1.32 Dry coating process for functional fabrics
    • 4.1.33 Nanomaterials for surface and air space decontamination, protective textiles, air and water purification and filtration
    • 4.1.34 Nanofibres for protective textiles
    • 4.1.35 TiO2 coated nanosilver
    • 4.1.36 Electrospinning of nanofibres and continuous nanofibre yarns
    • 4.1.37 Nano silver yarns
    • 4.1.38 Textiles with new luminescent properties
    • 4.1.39 Stain and water repellent textiles
    • 4.1.40 Enhanced colour fastness to fabric and textiles
    • 4.1.41 Binders for dyestuffs or pigments
    • 4.1.42 Ultra-thin polymer coatings
    • 4.1.43 Highly chemical resistant polymer materials
    • 4.1.44 Smart and interactive textiles
    • 4.1.45 Improved switch and sensor designs, textile switches and sensors, and electronic noses
  • 4.2 RESEARCH CENTRES
    • 4.2.1 PP and PA6/clay nanocomposite yarns for textiles
    • 4.2.2 Nanostructured self-cleaning textiles
    • 4.2.3 Functional coating systems for architectural textiles and intelligent surfaces
    • 4.2.4 Enzyme therapy for self-decontaminating fabric
    • 4.2.5 Surface modification of textiles
    • 4.2.6 Nanofibres in textiles for medicine and healthcare
    • 4.2.7 Functional coatings for textiles
    • 4.2.8 Carbon nanotube films and nanofibres
    • 4.2.9 Nanostructured intelligent surfaces for protective clothing
    • 4.2.10 Smart vests
    • 4.2.11 Piezoelectric sensors for textiles
    • 4.2.12 Shape memory polymers for intelligent textiles
    • 4.2.13 Smart fibres and textiles based on shape memory polymers
    • 4.2.14 Smart fibres and textiles
    • 4.2.15 Stimuli responsive polymer coatings
    • 4.2.16 Healing textiles
    • 4.2.17 Functional coating systems for architectural textiles and intelligent surfaces
    • 4.2.18 Smart fibres and textiles based on shape-memory polymers
    • 4.2.19 Anti-bacterial functionality on clothes
    • 4.2.20 Coatings for textiles, and controlled release systems
    • 4.2.21 Hydrophobic and hydrophilic coatings
    • 4.2.22 Super-amphipobic nanoscale functional surfaces
    • 4.2.23 Electrospun nanofibres for aerosol filtration in textile structures
    • 4.2.24 Dispersion of nano-sized ceramic particles in textile coatings
    • 4.2.25 Nanofibres in textiles for medicine and healthcare
    • 4.2.26 Self-cleaning nano TiO2 textiles
    • 4.2.27 Anti-bacterial functionality on fibres and textile fabric
    • 4.2.28 Hydrophobic and hydrophilic coatings
  • 4.3 UNIVERSITIES
    • 4.3.1 Carbon nanotubes for electronic textiles
    • 4.3.2 E-Textiles for wearable sensing and actuation
    • 4.3.3 Quantum tunneling nanocomposite textile soft structure sensors and actuators
    • 4.3.4 Nanofibres for wearable displays
    • 4.3.5 Optical nanoscale textile sensors
    • 4.3.6 Micro and nanostructured fibre systems for emergency-disaster wear
    • 4.3.7 Colour removal with nano titanium dioxide
    • 4.3.8 Nanostructured photocatalyst to degrade the colour in textile dye effluent containing auxiliary agents
    • 4.3.9 Hybrid organic-inorganic coatings for wool textiles
    • 4.3.10 Non-fluorine based superhydrophobicity for wool textile through nanoscale surface roughness modification
    • 4.3.11 Engineered spider silk
    • 4.3.12 Synthesis and investigation of highly photo stable fluorescent dyes and linking such structures to macromolecules
    • 4.3.13 Electrospun magnetic nanofibres with anti-counterfeiting applications for clothing
    • 4.3.14 Ultra-hydrophobic fibres
    • 4.3.15 Carbon nanotube yarns
    • 4.3.16 Anti-microbial polymer coating of fabrics
    • 4.3.17 Cyclodextrin additives to improve/enhance the properties of textile products
    • 4.3.18 Electrospinning and polymer nanofibres
    • 4.3.19 Nanofibres for aerospace, automotive, biomedical and orthopedic devices, textiles, ceramics, polymers, and advanced composites
    • 4.3.20 Multifunctional carbon nanotube yarns and textiles
    • 4.3.21 Polymeric structures used in specialist structural and other textile applications
    • 4.3.22 Polymer tapes and films with microcapillaries
    • 4.3.23 Gold nanoparticles as colourants and functional entities in high fashion textiles
    • 4.3.24 Self-cleaning fabrics
    • 4.3.25 New smart organic compounds
    • 4.3.26 Photocatalytic textile coatings
    • 4.3.27 Polymeric structures used in specialist structural and other textile applications
    • 4.3.28 Protective anti-fouling coatings
    • 4.3.29 Smart textiles
    • 4.3.30 Anti-microbial treatments for cellulosic and synthetic fibres
    • 4.3.31 Anti-bacterial PP fibres for non-wearable textiles
    • 4.3.32 Water-repelling, oil-repelling anti-staining chemically adsorbed film
    • 4.3.33 Surface modification of fabrics, colloids
    • 4.3.34 Shape memory polymers for intelligent textiles
    • 4.3.35 Self-cleaning fabrics
    • 4.3.36 Electrospun magnetic nanofibres with anti-counterfeiting applications in clothing
    • 4.3.37 Self-cleaning fabrics
    • 4.3.38 Carbon nanotube yarns
    • 4.3.39 Anti-microbial polymer coating of fabrics
    • 4.3.40 Carbon nanotubes for electronic textiles
    • 4.3.41 Fragrance release textiles

5. GLOSSARY

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