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Market Research Report

Global Markets and Applications of Nanotechnology in the Automotive Sector

Published by Nanoposts.com
Published June, 2009 Product code 82986
Content info 147 Pages
Price
US $ 1645 PDF By E-mail (Single User License)


Global Markets and Applications of Nanotechnology in the Automotive Sector published by Nanoposts.com in June, 2009. This report consists of 147 Pages and the price starts from US $ 1645.

Introduction

Abstract

The automotive industry is an early adopter of nanotechnologies. Toyota introduced the first nano-clay based composite some 15 years ago, Fiat took the lead in Shape Memory Alloys and plastometals, and GM and Toyota have commercialized applications of CNT- reinforced nanocomposites. Nanotechnology now offers the automotive industry improved lubricants, lightweight fuel cells, catalysts, nanoporous filters, self-cleaning windshields, self-repairing and colour changing paints, corrosion protection and lighter and stronger structural materials, for the car of the future. Automotive manufacturers are keen to utilise technologies which offer cost-effective improvements in vehicle performance as well as enabling them to meet stricter legislation regarding emissions and safety.

Areas in which the automotive and transport sector are expected to benefit from the use of nanomaterials include:

  • Frame and body parts
  • Engines and power trains
  • Paints and coatings
  • Suspension and breaking systems
  • Lubrication
  • Tyres
  • Exhaust systems and catalytic converters
  • Electric and electronic equipment.

This report provides an in-depth assessment of the impact of nanotechnologies, covering:

  • Key Applications and market opportunity to 2015
  • Global revenue forecasts
  • Key nanotechnologies
  • Key trends and drivers
  • Key players

Application areas addressed include: Fuel Cells, Power Systems, Heat Transfer, Lighting and Displays, Sensors, Coatings, Smart Materials, Interiors, Textiles and Structural and Functional Materials.

Table of Contents

1. INTRODUCTION

2. COMMERCIALISING NANOTECHNOLOGY IN THE AUTOMOTIVE SECTOR

  • 2.1 From Lab to Product
  • 2.2 Industry Structure
    • 2.2.1 Suppliers
      • 2.2.1.1 Materials
      • 2.2.1.2 Tools and instrumentation
    • 2.2.2 Buyers
    • 2.2.3 New entrants
    • 2.2.4 Substitution threats
    • 2.2.5 Competition
  • 2.3 Key Challenges
    • 2.3.1 Technical
      • 2.3.1.1 Understanding
      • 2.3.1.2 Tools
    • 2.3.2 Market
      • 2.3.2.1 Hype
      • 2.3.2.2 Cost
      • 2.3.2.3 Production
      • 2.3.2.4 Perception
    • 2.3.3 Regulatory
      • 2.3.3.1 Health
      • 2.3.3.2 Environmental
      • 2.3.3.3 Regulation
      • 2.3.3.4 Intellectual Property
  • 2.4 Market Trends and Drivers
    • 2.4.1 Drivers
    • 2.4.2 Trends
      • 2.4.2.1 Collaboration
      • 2.4.2.2 First to market
      • 2.4.2.3 Nanomaterials advantage
      • 2.4.2.4 Improved products
      • 2.4.2.5 Decreasing cost of nanomaterials
      • 2.4.2.6 Autonomous systems

3. KEY NANOTECHNOLOGIES FOR THE AUTOMOTIVE SECTOR

  • 3.1 NANOPARTICLES
    • 3.1.1 Market for nanoparticles
    • 3.1.2 Key players
      • 3.1.2.1 Nanomaterials producers
      • 3.1.2.2 Application developers
      • 3.1.2.3 End users
  • 3.2 NANOCOMPOSITES
    • 3.2.1 Market for nanocomposites
    • 3.2.2 Key players
      • 3.2.2.1 Nanomaterials producers
      • 3.2.2.2 Application developers
      • 3.2.2.3 End users
  • 3.3 NANOCAPSULES
    • 3.3.1 Market for nanocapsules
    • 3.3.2 Key players
      • 3.3.2.1 Nanomaterials producers
      • 3.3.2.2 Application developers
      • 3.3.2.3 End users
  • 3.4 NANOPOROUS MATERIALS
    • 3.4.1 Market for nanoporous materials
    • 3.4.2 Key Players
      • 3.4.2.1 Nanomaterials producers
      • 3.4.2.2 Application developers
      • 3.4.2.3 End users
  • 3.5 NANOFIBRES
    • 3.5.1 Market for nanofibres
    • 3.5.2 Key players
      • 3.5.2.1 Nanomaterials producers
      • 3.5.2.2 Application developers
      • 3.5.2.3 End users
  • 3.6 FULLERENES
    • 3.6.1 Market for fullerenes
    • 3.6.2 Key players
      • 3.6.2.1 Nanomaterials producers
      • 3.6.2.2 Application developers
      • 3.6.2.3 End users
  • 3.7 CARBON NANOTUBES
    • 3.7.1 Market for carbon nanotubes
    • 3.7.2 Key players
      • 3.7.2.1 Nanomaterials producers
      • 3.7.2.2 Application developers
      • 3.7.2.3 End users
  • 3.8 NANOCOATINGS
    • 3.8.1 Market for nanocoatings
    • 3.8.2 Key players
      • 3.8.2.1 Nanomaterials producers
      • 3.8.2.2 Application developers
      • 3.8.2.3 End users

4. GLOBAL IMPACT OF NANOTECHNOLOGY ON THE AUTOMOTIVE SECTOR

  • 4.1 Key applications and market opportunity to 2015
    • 4.1.1 Global revenue forecasts
    • 4.1.2 Market for nanomaterials in automotive and transportation
      • 4.1.2.1 Nanocoatings
      • 4.1.2.2 Nanocompostite fillers
      • 4.1.2.3 Nanoadditives in catalysts and lubricants
      • 4.1.2.4 Fuel Cells
      • 4.1.2.5 Nanoscale smart materials
    • 4.1.3 Key Players

5. TECHNOLOGY PROVIDER

  • 5.1 FUEL CELLS, HEAT TRANSFER AND ENERGY
    • 5.1.1 Nanoparticles as additives for catalysis
    • 5.1.2 Increased heat transfer fluid performance with nanofluids
    • 5.1.3 Conduction enhancement provided by carbon nanotube additions to fluids
    • 5.1.4 Lubricating fluids that incorporate dispersed aggregates of carbon-based materials
    • 5.1.5 Nanocomposites for catalytic converters
    • 5.1.6 Nanoparticle additives for fuel enhancement
    • 5.1.7 Nanomaterials for resistance to shock wave impact, catalytic and energy storage
    • 5.1.8 Nanoparticle suspension heat transfer fluids with enhanced thermal conductivity
    • 5.1.9 Conductive nanoparticles for heat transfer
    • 5.1.10 Coatings using engineered nanofluids
    • 5.1.11 Single wall carbon nanotubes for catalysts
    • 5.1.12 Multi-Walled carbon nanotubes film as catalyst support
    • 5.1.13 Nanocomposite membranes for higher temperature operation of PEM fuel cells
    • 5.1.14 MWNT as fuel cell electrocatalysts
    • 5.1.15 Nanofluids for heat transfer applications
    • 5.1.16 Polymer photovoltaic and thermo photovoltaic devices
    • 5.1.17 Nanoparticulate additives for improvement of combustion
    • 5.1.18 Nanostructured thermoelectric materials and catalytic combustion coatings
    • 5.1.19 Nanostructured catalysts for the emission control systems
    • 5.1.20 Nanomaterials for energy storage
    • 5.1.21 Conductive nanoparticles for heat transfer applications
    • 5.1.22 Nano enabled thermal fluids
  • 5.2 LIGHTING AND DISPLAYS
    • 5.2.1 Electrochromic coatings for windows
  • 5.3 SENSORS
    • 5.3.1 Smart tires
    • 5.3.2 Smart sensor for tires
  • 5.4 COATINGS
    • 5.4.1 Hydrophobic sealing of lacquered surfaces for transportation
    • 5.4.2 Nanotechnology for scratch resistant automotive coatings
    • 5.4.3 Photocatalytic coatings for automotive parts
    • 5.4.4 Anti-corrosion coatings
    • 5.4.5 Nanomaterials for anti-stick coatings, scratchproof systems, corrosion protection
    • 5.4.6 Easy to clean coating for automotive glass
    • 5.4.7 Nanoparticle coating materials for automotive applications
    • 5.4.8 Coatings with protective, easy to clean, and photocatalytic properties
    • 5.4.9 Ultra-hydrophobic surfaces for self-cleaning surfaces
    • 5.4.10 Photocatalytic coatings
    • 5.4.11 Scratch resistant surfaces
    • 5.4.12 Automotive glass
    • 5.4.13 Scratch resistant coatings
    • 5.4.14 Scratch/wear resistant coatings
    • 5.4.15 Anti-scratch coatings
    • 5.4.16 Hybrid coating that provides corrosion protection for aluminium alloys
    • 5.4.17 Nanocrystalline metal oxide powders for coating applications
    • 5.4.18 Photochromic and thermochromic films for windscreens
    • 5.4.19 Nano cages for anti-adhesion
    • 5.4.20 Photochromic thin films
    • 5.4.21 Smart windows
    • 5.4.22 Photochromic films
    • 5.4.23 Anti-fogging glass
    • 5.4.24 Anti-fogging car mirrors
    • 5.4.25 Multifunctional nano coatings
    • 5.4.26 Smart materials
    • 5.4.27 Wear resistant coatings
  • 5.5 STRUCTURAL AND FUNCTIONAL MATERIALS
    • 5.5.1 Smart materials
    • 5.5.2 Materials for vehicle structure and engine applications
    • 5.5.3 Ceramic nanocomposites for reinforcement and stress measurement
    • 5.5.4 Degradation behaviour of nanocrystalline metals
    • 5.5.5 Self-healing materials
    • 5.5.6 Self-healing materials
    • 5.5.7 Reinforcement of polymeric resin with nanoclay platelets
    • 5.5.8 Polymer-functionalized nanotubes using an organometallic approach
    • 5.5.9 Nanocomposite materials and coatings for automotive applications
    • 5.5.10 Adhesives for automotive applications
    • 5.5.11 Nanotube composites for reinforcement
    • 5.5.12 Nanoparticle based lubricants for reducing friction and wear
    • 5.5.13 Surface modification of nanoparticles to introduce smart properties into materials for the automotive sector
    • 5.5.14 Chemical resistant polymer materials
    • 5.5.15 Carbon nanotubes for reinforcement
    • 5.5.16 Carbon nanotubes for composites materials and sensors
  • 5.6 INTERIORS
    • 5.6.1 Anti-microbial textiles
    • 5.6.2 Textile switches and sensors
    • 5.6.3 Nanofibres for textiles
    • 5.6.4 Textiles for stain repellency
    • 5.6.5 Anti-microbial treatments for cellulosic and synthetic fibers with silver cluster
    • 5.6.6 Anti-bacterial PP fibres
    • 5.6.7 Method for forming a water-repelling, oil-repelling and anti-staining chemically adsorbed film
    • 5.6.8 Coatings for textiles and controlled release systems
    • 5.6.9 Super-amphipobic coatings
    • 5.6.10 Stain repellent textiles
    • 5.4.22 Photochromic films
    • 5.4.23 Anti-fogging glass
    • 5.4.24 Anti-fogging car mirrors
    • 5.4.25 Multifunctional nano coatings
    • 5.4.26 Smart materials
    • 5.4.27 Wear resistant coatings
  • 5.5 STRUCTURAL AND FUNCTIONAL MATERIALS
    • 5.5.1 Smart materials
    • 5.5.2 Materials for vehicle structure and engine applications
    • 5.5.3 Ceramic nanocomposites for reinforcement and stress measurement
    • 5.5.4 Degradation behaviour of nanocrystalline metals
    • 5.5.5 Self-healing materials
    • 5.5.6 Self-healing materials
    • 5.5.7 Reinforcement of polymeric resin with nanoclay platelets
    • 5.5.8 Polymer-functionalized nanotubes using an organometallic approach
    • 5.5.9 Nanocomposite materials and coatings for automotive applications
    • 5.5.10 Adhesives for automotive applications
    • 5.5.11 Nanotube composites for reinforcement
    • 5.5.12 Nanoparticle based lubricants for reducing friction and wear
    • 5.5.13 Surface modification of nanoparticles to introduce smart properties into materials for the automotive sector
    • 5.5.14 Chemical resistant polymer materials
    • 5.5.15 Carbon nanotubes for reinforcement
    • 5.5.16 Carbon nanotubes for composites materials and sensors
  • 5.6 INTERIORS
    • 5.6.1 Anti-microbial textiles
    • 5.6.2 Textile switches and sensors
    • 5.6.3 Nanofibres for textiles
    • 5.6.4 Textiles for stain repellency
    • 5.6.5 Anti-microbial treatments for cellulosic and synthetic fibers with silver cluster
    • 5.6.6 Anti-bacterial PP fibres
    • 5.6.7 Method for forming a water-repelling, oil-repelling and anti-staining chemically adsorbed film
    • 5.6.8 Coatings for textiles and controlled release systems
    • 5.6.9 Super-amphipobic coatings
    • 5.6.10 Stain repellent textiles

6. GLOSSARY
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