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The Global Nanotechnology and Nanomaterials Industry: Stage of Development, Global Activity and Market Opportunities Product Image

The Global Nanotechnology and Nanomaterials Industry: Stage of Development, Global Activity and Market Opportunities

  • Published: January 2013
  • Region: Global
  • 696 Pages
  • Future Markets, Inc

Nanotechnology applications and nanomaterials are being applied across a raft of industries due to their outstanding magnetic, optical, catalytic and electronic properties. There are already established market for nanomaterials including titanium dioxide, zinc oxide, silicon oxide nanopowders and carbon nanotubes, nanofibers, nanosilver, nanoclays, quantum dots and nanoporous materials driven by demand from applications in filtration, electronics, cosmetics, energy, medicine, chemicals, coatings and catalysts. Recent breakthroughs have heralded new market opportunities in graphene and nanocellulose. This new 696-page report from Future Market, Inc., the world's leading provider of nanotechnology and nanomaterials information and publisher of Nanotech Magazine, provides a comprehensive insight into all aspects of the market for these materials.

WHAT DOES THE REPORT INCLUDE?

- Comprehensive data and forecasts for the global nanotechnology and nanomaterials market to 2019. Nanomaterials covered include aluminium oxide nanopowders, antimony tin, bismuth oxide, carbon nanotubes, cerium oxide, cobalt oxide, fullerenes and POSS, graphene, graphyne, graphdiyne, graphane, indium, READ MORE >

1 EXECUTIVE SUMMARY

2 METHODOLOGY

3 NANOMATERIALS PRODUCTION: CURRENT AND PROJECTED
3.1 Applications of nanomaterials
3.2 Production estimates 2012
3.3 Demand by material type and market
3.4 ALUMINIUM OXIDE
3.4.1 Properties
3.4.2 Commercialization timeline
3.4.3 Demand by market
3.4.4 Production volumes, tons
3.4.5 Prices
3.4.6 Producers
3.5 ANTIMONY TIN OXIDE
3.5.1 Properties
3.5.2 Commercialization timeline
3.5.3 Demand by market
3.5.4 Production volumes, tons
3.5.5 Prices
3.5.6 Producers
3.6 BISMUTH OXIDE
3.6.1 Properties
3.6.2 Commercialization timeline
3.6.3 Demand by market
3.6.4 Production volumes, tons
3.6.5 Prices
3.6.6 Producers
3.7 CARBON NANOTUBES
3.7.1 Properties
3.7.2 Commercialization timeline
3.7.3 Demand by market
3.7.4 Production volumes, tons
3.7.5 Prices
3.7.6 Producers
3.8 CERIUM OXIDE
3.8.1 Properties
3.8.2 Commercialization timeline
3.8.3 Demand by market
3.8.4 Production volumes, tons
3.8.5 Prices 63
3.8.6 Producers
3.9 COBALT OXIDE
3.9.1 Properties
3.9.2 Commercialization timeline
3.9.3 Demand by market
3.9.4 Production volumes, tons
3.9.5 Prices
3.9.6 Producers
3.10 COPPER OXIDE
3.10.1 Properties
3.10.2 Commercialization timeline
3.10.3 Demand by market
3.10.4 Production volumes, tons
3.10.5 Prices
3.10.6 Producers
3.11 FULLERENES AND POSS
3.11.1 Properties
3.11.2 Commercialization timeline
3.11.3 Demand by market
3.11.4 Production volumes, tons
3.11.5 Prices
3.11.6 Producers
3.12 GRAPHENE
3.12.1 Properties
3.12.2 Commercialization timeline
3.12.3 Demand by market
3.12.4 Production volumes, tons
3.12.5 Prices
3.12.6 Producers
3.13 GRAPHYNE
3.13.1 Properties
3.13.2 Commercialization timeline 91
3.13.3 Research centre profiles 91
3.14 GRAPHDIYNE
3.14.1 Properties
3.14.2 Commercialization timeline
3.14.3 Research centre profiles
3.15 GRAPHANE
3.15.1 Properties
3.15.2 Commercialization timeline
3.15.3 Research centre profiles
3.16 INDIUM TIN OXIDE
3.16.1 Properties 97
3.16.2 Commercialization timeline
3.16.3 Demand by market
3.16.4 Production volumes, tons
3.16.5 Prices
3.16.6 Producers
3.17 IRON OXIDE
3.17.1 Properties
3.17.2 Commercialization timeline
3.17.3 Demand by market
3.17.4 Production volumes, tons
3.17.5 Prices
3.17.6 Producers
3.18 MAGNESIUM OXIDE
3.18.1 Properties
3.18.2 Commercialization timeline
3.18.3 Demand by market
3.18.4 Production volumes, tons
3.18.5 Prices
3.18.6 Producers
3.19 MANGANESE OXIDE
3.19.1 Properties
3.19.2 Commercialization timeline
3.19.3 Demand by market
3.19.4 Production volumes, tons
3.19.5 Prices
3.19.6 Producers
3.20 MOLYBDENUM DISULFIDE
3.20.1 Properties
3.20.2 Commercialization timeline
3.20.3 Research centre profiles
3.21 NANOCELLULOSE
3.21.1 Properties 114
3.21.2 Commercialization timeline 119
3.21.3 Demand by market
3.21.4 Production volumes, tons
3.21.5 Producers
3.22 NANOCLAYS
3.22.1 Properties
3.22.2 Commercialization timeline
3.22.3 Demand by market
3.22.4 Production volumes, tons
3.22.5 Prices
3.22.6 Producers
3.23 NANOFIBERS 132
3.23.1 Properties
3.23.2 Commercialization timeline
3.23.3 Demand by market
3.23.4 Production volumes, tons
3.23.5 Prices
3.23.6 Producers
3.24 NANO-PRECIPITATED CALCIUM CARBONATE
3.24.1 Properties
3.24.2 Commercialization timeline
3.24.3 Demand by market
3.24.4 Production volumes, tons
3.24.5 Prices
3.24.6 Producers
3.25 NANOSILVER
3.25.1 Properties
3.25.2 Commercialization timeline
3.25.3 Demand by market
3.25.4 Production volumes, tons
3.25.5 Prices
3.25.6 Producers
3.26 NICKEL
3.26.1 Properties
3.26.2 Commercialization timeline
3.26.3 Demand by market
3.26.4 Production volumes, tons
3.26.5 Prices
3.26.6 Producers
3.27 QUANTUM DOTS
3.27.1 Properties
3.27.2 Commercialization timeline
3.27.3 Demand by market
3.27.4 Production volumes, tons
3.27.5 Prices 161
3.27.6 Producers 162
3.28 SILICENE
3.28.1 Properties
3.28.2 Commercialization timeline
3.28.3 Research centre profiles
3.29 SILICON OXIDE
3.29.1 Properties
3.29.2 Commercialization timeline
3.29.3 Demand by market
3.29.4 Production volumes, tons
3.29.5 Prices
3.29.6 Producers 169
3.30 TITANIUM DIOXIDE
3.30.1 Properties
3.30.2 Commercialization timeline
3.30.3 Demand by market
3.30.4 Production volumes, tons
3.30.5 Prices
3.30.6 Producers
3.31 YTTRIUM OXIDE
3.31.1 Properties
3.31.2 Commercialization timeline
3.31.3 Demand by market
3.31.4 Production volumes, tons
3.31.5 Prices
3.31.6 Producers
3.32 ZINC OXIDE
3.32.1 Properties
3.32.2 Commercialization timeline
3.32.3 Demand by market
3.32.4 Production volumes, tons
3.32.5 Prices
3.32.6 Producers
3.33 ZIRCONIUM OXIDE
3.33.1 Properties
3.33.2 Commercialization timeline
3.33.3 Demand by market
3.33.4 Production volumes, tons
3.33.5 Prices
3.33.6 Producers

4 REGULATIONS
4.1 Europe and the European Commission
4.2 Germany
4.3 Belgium
4.4 France 199
4.5 United States 201
4.6 United Kingdom
4.7 Japan
4.8 Australia
4.9 Switzerland
4.10 Canada
4.11 Iran
4.12 Norway
4.13 South Korea
4.14 The Netherlands
4.15 China
4.16 New Zealand
4.17 Italy
4.18 Denmark 207
4.19 India
4.20 International agencies

5 TOXICOLOGY

6 PATENT ACTIVITY

7 GLOBAL FUNDING AND GOVERNMENT INITIATIVES
7.1 United States
7.2 Japan
7.3 China
7.4 Russia
7.5 Germany
7.6 Taiwan
7.7 South Korea
7.8 United Kingdom
7.9 India
7.10 EC
7.11 Australia
7.12 Norway

8 MARKETS FOR NANOTECHNOLOGY AND NANOMATERIALS
8.1 ADHESIVES AND SEALANTS
8.1.1 Commercialization timeline
8.1.2 Revenues
8.1.3 Nanomaterials, applications and companies
8.2 AEROSPACE AND AVIATION
8.2.1 Commercialization timeline
8.2.2 Revenues
8.2.3 Nanomaterials, applications and companies
8.3 AUTOMOTIVE
8.3.1 Commercialization timeline 276
8.3.2 Revenues
8.3.3 Nanomaterials, applications and companies
8.4 CATALYSTS
8.4.1 Commercialization timeline
8.4.2 Revenues
8.4.3 Nanomaterials, applications and companies
8.5 CIVIL ENGINEERING, CONSTRUCTION AND EXTERIOR PROTECTION
Coatings, Construction Ceramics, Cement, Composites, Insulation
8.5.1 Commercialization timeline
8.5.2 Revenues 295
8.5.3 Nanomaterials, applications and companies
8.6 HYGIENE, CLEANING AND SANITARY INCLUDING HOMEWARE
8.6.1 Commercialization timeline
8.6.2 Revenues
8.6.3 Nanomaterials and applications
8.7 ELECTRONICS, OPTOELECTRONICS AND PHOTONICS
8.7.1 Commercialization timeline
8.7.2 Revenues
8.7.3 Nanomaterials, applications and companies
8.8 ENERGY (INCLUDING OIL AND GAS)
8.8.1 Commercialization timeline
8.8.2 Revenues
8.8.3 Nanomaterials, applications and companies
8.9 ENVIRONMENT, AIR AND WATER FILTRATION
8.9.1 Commercialization timeline
8.9.2 Revenues
8.9.3 Nanomaterials, applications and companies
8.10 FOOD, AGRICULTURE AND BEVERAGE
8.10.1 Commercialization timeline
8.10.2 Revenues
8.10.3 Nanomaterials, applications and companies
8.11 MARINE 368
8.11.1 Commercialization timeline 369
8.11.2 Revenues
8.11.3 Nanomaterials, applications and companies
8.12 MEDICAL AND LIFE SCIENCES
8.12.1 Commercialization timeline
8.12.2 Revenues
8.12.3 Nanomaterials, applications and companies
8.13 MILITARY AND DEFENCE
8.13.1 Commercialization timeline 401
8.13.2 Revenues
8.13.3 Nanomaterials, applications and companies
8.14 PACKAGING
8.14.1 Commercialization timeline
8.14.2 Revenues
8.14.3 Nanomaterials, applications and companies
8.15 PAINTS AND COATINGS
8.15.1 Commercialization timeline
8.15.2 Revenues
8.15.3 Nanomaterials, applications and companies
8.16 PERSONAL CARE
8.16.1 Commercialization timeline
8.16.2 Revenues
8.16.3 Nanomaterials, applications and companies
8.17 PLASTICS AND RUBBER, INCLUDING FLAME RETARDANTS
8.17.1 Commercialization timeline
8.17.2 Revenues
8.17.3 Nanomaterials, applications and companies
8.18 PRODUCT SECURITY AND ANTI-COUNTERFEITING
8.18.1 Commercialization timeline
8.18.2 Revenues
8.18.3 Nanomaterials, applications and companies
8.19 SENSORS
8.19.1 Commercialization timeline
8.19.2 Revenues
8.19.3 Nanomaterials, applications and companies
8.20 SPORTING GOODS
8.20.1 Commercialization timeline 465
8.20.2 Revenues 466
8.20.3 Nanomaterials, applications and companies
8.21 TELECOMMUNICATIONS
8.21.1 Commercialization timeline
8.21.2 Revenues
8.21.3 Nanomaterials, applications and companies
8.22 TEXTILES
8.22.1 Commercialization timeline
8.22.2 Revenues
8.22.3 Nanomaterials, applications and companies
8.23 TOOLS AND METALS
8.23.1 Commercialization timeline
8.23.2 Revenues
8.23.3 Nanomaterials, applications and companies

9 REFERENCES

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