The Global Market for Nanomaterials 2010-2028 - Product Image

The Global Market for Nanomaterials 2010-2028

  • ID: 4538713
  • Report
  • Region: Global
  • 485 Pages
  • Future Markets, Inc
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Nanomaterials are increasingly becoming part of our daily lives. Their novel properties, that are not apparent in larger forms of the same material, has led to their desirability and exploitation in a wide range of applications. Nanomaterials can be defined as substances that are intentionally produced, manufactured or engineered to have specific properties and one or more dimensions typically between 1 and 100 nanometres. Most nanomaterials are produced in multi-ton volumes in varying sizes, shapes, and also in surface coatings. Nanomaterials cover a range of materials inorganic metal and metal oxide nanomaterials, carbon-based nanomaterials and polymeric particulate materials in a variety of forms.

Markets nanomaterials are currently impacting include healthcare, sporting goods, cosmetics and personal care, automotive, food and beverage, home and garden, coatings in numerous sectors, consumer electronics and computing. Paints and coatings cross-apply to numerous consumer markets from aerospace and automotive to construction and hygiene. They offer a range of functionalities that are desirable in a number of sectors such as anti-bacterialism, anti-corrosion, easy-clean, thermal barrier, protective and UV-absorbent and combinations thereof.

The report offers:

  • In-depth analysis of the global market for nanomaterials, producers, and products.
  • Analysis of the following nanomaterials:
  • Aluminium oxide nanoparticles
  • Antimony tin oxide nanoparticles
  • Bismuth oxide nanoparticles
  • Carbon nanotubes
  • Cerium oxide nanoparticles
  • Cobalt oxide nanoparticles
  • Copper oxide nanoparticles
  • Dendrimers
  • Fullerenes
  • Gold nanoparticles
  • Graphene (Graphene oxide; nanoplatelets from liquid phase-exfoliation and intercalation exfoliation; CVD graphene film) .
  • Iron oxide nanoparticles
  • Magnesium oxide nanoparticles
  • Manganese oxide nanoparticles
  • Nanocellulose (Cellulose nanofibers and cellulose nanocrystals)
  • Nanoclays
  • Nanodiamondss
  • Nanofibers
  • Nanosilver
  • Nanowires
  • Nickel nanoparticles
  • Quantum dots
  • Silicon oxide nanoparticles
  • Titanium dioxide nanoparticles
  • Zinc oxide nanoparticles
  • Zirconium oxide nanoparticles
  • Nanoprecipitated calcium carbonate
  • Graphene quantum dots/Carbon quantum dots
  • Hydroxypatite nanoparticles
  • Palladium nanoparticles
  • Yttrium oxide nanoparticles
  • Other 2D materials beyond graphene.
  • Analysis of global nanomaterials regulations.
  • Global nanomaterials funding and government policies.
  • Nanomaterials patenting.
  • Assessment of nanomaterials market including production volumes, competitive landscape, commercial prospects, applications, demand by market and region, commercialization timelines, prices and producer profiles.
  • Analysis of the following
  • Examples of successful markets and products.
  • Analysis of global trends, including historical data from 2010, and projections to 2027.
  • Exploration of nanomaterials market structures and value chains.
  • Main application and product opportunities in nanotechnology.
  • Profiles of over 750 nanomaterials producers.
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1 RESEARCH METHODOLOGY
1.1 NANOMATERIALS MARKET RATING SYSTEM
1.1.1 Addressable market size
1.1.2 Competitive landscape
1.1.3 IP landscape
1.1.4 Commercial prospects

2 INTRODUCTION
2.1 Aims and objectives of the study
2.2 Market definition
2.2.1 Properties of nanomaterials
2.3 Categorization

3 EXECUTIVE SUMMARY

4 NANOMATERIALS REGULATIONS
4.1 Europe
4.1.1 REACH
4.1.2 Biocidal Products Regulation
4.1.3 National nanomaterials registers
4.1.4 Cosmetics regulation
4.1.5 Food safety
4.1.6 Nanomaterials regulations and rulings 2017-2018
4.2 United States
4.2.1 Toxic Substances Control Act (TSCA)
4.2.2 Nanomaterials regulations and rulings 2017-2018
4.3 Asia
4.3.1 Japan
4.3.2 South Korea
4.3.3 Taiwan
4.3.4 Australia
4.3.5 Nanomaterials regulations and rulings 2017-2018

5 GLOBAL FUNDING AND POLICY
5.1 United States
5.1.1 National Nanotechnology Initiative (NNI)
5.2 Japan
5.2.1 Science and technology basic plans
5.2.1.1 Strategic Innovation Promotion Program
5.2.1.2 Science and Technology Basic Plan
5.2.1.3 5th Science and Technology Basic Plan (FY2016-2020)
5.2.2 Government bodies
5.2.2.1 Ministry of Education, Culture, Sports, Science and Technology (MEXT)
5.2.2.2 Ministry of Economy, Trade and Industry (METI)
5.2.3 Research centres and platforms
5.2.3.1 Tsukuba Innovation Arena for Nanotechnology (TIA - NANO)
5.2.3.2 National Institute of Materials Science (NIMS)
5.2.3.3 National Institute of Advanced Industrial Science and Technology (AIST)
5.3 China
5.3.1 Graphene funding and development
5.3.2 Future graphene strategy
5.3.3 13th Five-Year Plan
5.4 South Korea
5.4.1 Nanotechnology funding in South Korea
5.4.2 Graphene funding
5.5 Taiwan
5.5.1 National Nanotechnology Program Phase 1
5.5.2 Phase 2
5.6 Germany
5.6.1 Nanotechnology 2015 Action Plan
5.6.2 Networks
5.7 European Union
5.7.1 Horizon 2020
5.7.2 Graphene Flagship

6 PATENTING

7 THE GLOBAL MARKET FOR NANOMATERIALS
7.1 ALUMINIUM OXIDE NANOPARTICLES
7.1.1 Market prospects
7.1.2 Market summary and nanomaterials analysis
7.1.3 Properties
7.1.4 Applications
7.1.5 Demand by market
7.1.6 Technology readiness level (TRL)
7.1.7 Demand in tons, 2010-2028
7.1.8 Demand by region
7.1.9 Prices
7.1.10 Producers
7.2 ANTIMONY TIN OXIDE NANOPARTICLES
7.2.1 Market prospects
7.2.2 Market summary and nanomaterials analysis
7.2.3 Properties
7.2.4 Applications
7.2.5 Demand by market
7.2.6 Technology readiness level (TRL)
7.2.7 Demand in tons, 2010-2028
7.2.8 Demand by region
7.2.9 Prices
7.2.10 Producers
7.3 BISMUTH OXIDE NANOPARTICLES
7.3.1 Market prospects
7.3.2 Market summary and nanomaterials analysis
7.3.3 Properties
7.3.4 Applications
7.3.5 Demand by market
7.3.6 Technology readiness level (TRL)
7.3.7 Demand in tons, 2010-2028
7.3.8 Demand by region
7.3.9 Prices
7.3.10 Producers
7.4 CARBON NANOTUBES
7.4.1 Market prospects
7.4.2 Market summary and nanomaterials analysis
7.4.3 Properties
7.4.3.1 Double-walled carbon nanotubes (DWNT)
7.4.4 Applications
7.4.5 Technology readiness level (TRL)
7.4.6 Demand by market
7.4.6.1 MWNTs
7.4.6.2 SWNTs
7.4.7 Demand in tons, 2010-2028
7.4.7.1 MWNTs
7.4.7.2 SWNTs
7.4.8 Demand by region
7.4.9 Prices
7.4.10 Producers
7.5 CERIUM OXIDE NANOPARTICLES
7.5.1 Market prospects
7.5.2 Market summary and nanomaterials analysis
7.5.3 Properties
7.5.4 Applications
7.5.5 Technology readiness level (TRL)
7.5.6 Demand by market
7.5.7 Demand in tons, 2010-2028
7.5.8 Demand by region
7.5.9 Prices
7.5.10 Producers
7.6 COBALT OXIDE NANOPARTICLES
7.6.1 Market prospects
7.6.2 Market summary and nanomaterials analysis
7.6.3 Properties
7.6.4 Applications
7.6.5 Demand by market
7.6.6 Technology readiness level (TRL)
7.6.7 Demand in tons, 2010-2028
7.6.8 Demand by region
7.6.9 Prices
7.6.10 Producers
7.7 COPPER OXIDE NANOPARTICLES
7.7.1 Market prospects
7.7.2 Market summary and nanomaterials analysis
7.7.3 Properties
7.7.4 Applications
7.7.5 Demand by market
7.7.6 Technology readiness level (TRL)
7.7.7 Demand in tons, 2010-2028
7.7.8 Demand by region
7.7.9 Prices
7.7.10 Producers
7.8 DENDRIMERS
7.8.1 Market prospects
7.8.2 Market summary and nanomaterials analysis
7.8.3 Properties
7.8.3.1 Types
7.8.4 Applications
7.8.5 Technology readiness level (TRL)
7.8.6 Demand by market
7.8.7 Demand in tons, 2010-2028
7.8.8 Demand by region
7.8.9 Prices
7.8.10 Producers
7.9 FULLERENES
7.9.1 Market prospects
7.9.2 Market summary and nanomaterials analysis
7.9.3 Properties
7.9.4 Applications
7.9.5 Technology readiness level (TRL)
7.9.6 Demand by market
7.9.7 Demand in tons, 2010-2028
7.9.8 Demand by region
7.9.9 Prices
7.9.10 Producers
7.10 GOLD NANOPARTICLES
7.10.1 Market prospects
7.10.2 Market summary and nanomaterials analysis
7.10.3 Properties
7.10.4 Applications
7.10.5 Technology readiness level (TRL)
7.10.6 Demand by market
7.10.7 Demand in tons, 2010-2028
7.10.8 Demand by region
7.10.9 Prices
7.10.10 Producers
7.11 GRAPHENE
7.11.1 Market prospects
7.11.2 Market summary and nanomaterials analysis
7.11.3 Properties
7.11.4 Applications
7.11.5 Technology readiness level (TRL)
7.11.6 Demand by market
7.11.7 Demand in tons, 2010-2028
7.11.8 Demand by region
7.11.9 Prices
7.11.10 Producers
7.12 IRON OXIDE NANOPARTICLES
7.12.1 Market prospects
7.12.2 Market summary and nanomaterials analysis
7.12.3 Properties
7.12.4 Applications
7.12.5 Technology readiness level (TRL)
7.12.6 Demand by market
7.12.7 Demand in tons, 2010-2028
7.12.8 Demand by region
7.12.9 Prices
7.12.10 Producers
7.13 MAGNESIUM OXIDE NANOPARTICLES
7.13.1 Market prospects
7.13.2 Market summary and nanomaterials analysis
7.13.3 Properties
7.13.4 Applications
7.13.5 Technology readiness level (TRL)
7.13.6 Demand by market
7.13.7 Demand in tons, 2010-2028
7.13.8 Demand by region
7.13.9 Prices
7.13.10 Producers
7.14 MANGANESE OXIDE NANOPARTICLES
7.14.1 Market prospects
7.14.2 Market summary and nanomaterials analysis
7.14.3 Properties
7.14.4 Applications
7.14.5 Technology readiness level (TRL)
7.14.6 Demand by market
7.14.7 Demand in tons, 2010-2028
7.14.8 Demand by region
7.14.9 Prices
7.14.10 Producers
7.15 NANOCELLULOSE
7.15.1 Market prospects
7.15.2 Market summary and nanomaterials analysis
7.15.3 Properties
7.15.3.1 Cellulose nanofibers
7.15.3.2 Cellulose nanocrystals
7.15.4 Applications
7.15.5 Technology readiness level (TRL)
7.15.6 Demand by market
7.15.7 Demand in tons, 2010-2028
7.15.8 Demand by region
7.15.9 Prices
7.15.10 Producers
7.15.10.1 Cellulose nanofibers
7.15.10.2 Cellulose nanocrystals
7.16 NANOCLAYS
7.16.1 Market prospects
7.16.2 Market summary and nanomaterials analysis
7.16.3 Properties
7.16.4 Applications
7.16.5 Technology readiness level (TRL)
7.16.6 Demand by market
7.16.7 Demand in tons, 2010-2028
7.16.8 Demand by region
7.16.9 Prices
7.16.10 Producers
7.17 NANODIAMONDS
7.17.1 Market prospects
7.17.2 Market summary and nanomaterials analysis
7.17.3 Properties
7.17.4 Applications
7.17.5 Demand by market
7.17.6 Technology readiness level (TRL)
7.17.7 Demand in tons, 2010-2028
7.17.8 Demand by region
7.17.9 Prices
7.17.10 Producers
7.18 NANOFIBERS
7.18.1 Market prospects
7.18.2 Market summary and nanomaterials analysis
7.18.3 Properties
7.18.4 Applications
7.18.5 Technology readiness level (TRL)
7.18.6 Demand by market
7.18.7 Demand in tons, 2010-2028
7.18.8 Demand by region
7.18.9 Producers
7.19 NANOSILVER
7.19.1 Market prospects
7.19.2 Market summary and nanomaterials analysis
7.19.3 Properties
7.19.4 Applications
7.19.5 Demand by market
7.19.6 Technology readiness level (TRL)
7.19.7 Demand in tons, 2010-2028
7.19.8 Demand, by region
7.19.9 Prices
7.19.10 Producers
7.20 NANOWIRES
7.20.1 Market prospects
7.20.2 Market summary and nanomaterials analysis
7.20.3 Properties
7.20.4 Applications
7.20.5 Technology readiness level (TRL)
7.20.6 Demand by market
7.20.7 Demand, by region
7.20.8 Prices
7.20.9 Producers
7.21 NICKEL NANOPARTICLES
7.21.1 Market prospects
7.21.2 Market summary and nanomaterials analysis
7.21.3 Properties
7.21.4 Applications
7.21.5 Demand by market
7.21.6 Technology readiness level (TRL)
7.21.7 Demand in tons, 2010-2028
7.21.8 Demand, by region
7.21.9 Prices
7.21.10 Producers
7.22 QUANTUM DOTS
7.22.1 Market prospects
7.22.2 Properties
7.22.2.1 Cadmium Selenide, Cadmium Sulfide and other materials
7.22.2.2 Cadmium free quantum dots
7.22.3 Applications
7.22.4 Technology readiness level (TRL)
7.22.5 Demand by market
7.22.6 Demand, 2010-2028
7.22.7 Demand by region
7.22.8 Prices
7.22.9 Producers
7.23 SILICON OXIDE NANOPARTICLES
7.23.1 Market prospects
7.23.2 Market summary and nanomaterials analysis
7.23.3 Properties
7.23.4 Applications
7.23.5 Technology readiness level (TRL)
7.23.6 Demand by market
7.23.7 Demand in tons, 2010-2028
7.23.8 Demand by region
7.23.9 Prices
7.23.10 Producers
7.24 TITANIUM DIOXIDE NANOPARTICLES
7.24.1 Market prospects
7.24.2 Market summary and nanomaterials analysis
7.24.3 Properties
7.24.3.1 Photocatalytic
7.24.3.2 UV-filter
7.24.4 Applications
7.24.5 Technology readiness level (TRL)
7.24.6 Demand by market
7.24.7 Demand in tons, 2010-2028
7.24.8 Demand by region
7.24.9 Producers
7.25 ZINC OXIDE NANOPARTICLES
7.25.1 Market prospects
7.25.2 Market summary and nanomaterials analysis
7.25.3 Properties
7.25.4 Applications
7.25.5 Technology readiness level (TRL)
7.25.6 Demand by market
7.25.7 Demand in tons, 2010-2028
7.25.8 Demand by region
7.25.9 Producers
7.26 ZIRCONIUM OXIDE NANOPARTICLES
7.26.1 Market prospects
7.26.2 Market summary and nanomaterials analysis
7.26.3 Properties
7.26.4 Applications
7.26.5 Technology readiness level (TRL)
7.26.6 Demand by market
7.26.7 Demand in tons, 2010-2028
7.26.8 Demand by region
7.26.9 Prices
7.26.10 Producers
7.27 OTHER NANOMATERIALS
7.27.1 NANOPRECIPITATED CALCIUM CARBONATE
7.27.1.1 Properties
7.27.1.2 Applications
7.27.1.3 Producers
7.27.2 GRAPHENE AND CARBON QUANTUM DOTS
7.27.2.1 Properties
7.27.2.2 Applications
7.27.2.3 Producers
7.27.3 HYDROXYAPATITE NANOPARTICLES
7.27.3.1 Properties
7.27.3.2 Applications
7.27.3.3 Producers
7.27.4 PALLADIUM NANOPARTICLES
7.27.4.1 Properties
7.27.4.2 Applications
7.27.4.3 Producers
7.27.5 YTTRIUM OXIDE NANOPARTICLES
7.27.5.1 Properties
7.27.5.2 Applications
7.27.5.3 Producers
7.27.6 CARBON ONIONS
7.27.6.1 Properties
7.27.6.2 Applications
7.27.7 CARBON NANOHORNS
7.27.8 BORON NITRIDE NANOTUBES (BNNTs)
7.28 OTHER 2D MATERIALS
7.28.1 PHOSPHORENE
7.28.1.1 Properties
7.28.1.2 Applications
7.28.1.3 Market opportunity assessment
7.28.2 GRAPHITIC CARBON NITRIDE (g-C3N4)
7.28.2.1 Properties
7.28.2.2 Synthesis
7.28.2.3 C2N
7.28.2.4 Applications
7.28.2.5 Market opportunity assessment
7.28.3 GERMANENE
7.28.3.1 Properties
7.28.3.2 Applications
7.28.3.3 Market opportunity assessment
7.28.4 GRAPHDIYNE
7.28.4.1 Properties
7.28.4.2 Applications
7.28.4.3 Market opportunity assessment
7.28.5 GRAPHANE
7.28.5.1 Properties
7.28.5.2 Applications
7.28.5.3 Market opportunity assessment
7.28.6 HEXAGONAL BORON-NITRIDE
7.28.6.1 Properties
7.28.6.2 Applications
7.28.6.3 Market opportunity assessment
7.28.7 MOLYBDENUM DISULFIDE (MoS2)
7.28.7.1 Properties
7.28.7.2 Applications
7.28.7.3 Market opportunity assessment
7.28.8 RHENIUM DISULFIDE (ReS2) AND DISELENIDE (ReSe2)
7.28.8.1 Properties
7.28.8.2 Applications
7.28.8.3 Market opportunity assessment
7.28.9 SILICENE
7.28.9.1 Properties
7.28.9.2 Applications
7.28.10 Market opportunity assessment
7.28.11 STANENE/TINENE
7.28.11.1 Properties
7.28.11.2 Applications
7.28.11.3 Market opportunity assessment
7.28.12 TUNGSTEN DISELENIDE
7.28.12.1 Properties
7.28.12.2 Applications
7.28.12.3 Market opportunity assessment
7.28.13 ANTIMONENE
7.28.13.1 Properties
7.28.13.2 Applications
7.28.14 DIAMENE
7.28.14.1 Properties
7.28.14.2 Applications
7.28.15 INDIUM SELENIDE
7.28.15.1 Properties
7.28.15.2 Applications

8 REFERENCES
 
LIST OF TABLES
Table 1: Categorization of nanomaterials
Table 2: The Global market for nanomaterials in 2017 in tons, market characteristics and growth prospects
Table 3: Demand for nanomaterials (tons), 2010-2028
Table 4: National nanomaterials registries in Europe
Table 5: Nanomaterials regulations and rulings in Europe 2017-2018
Table 6: Nanomaterials regulations and rulings in the United States 2017-2018
Table 7: Nanomaterials regulatory bodies in Australia
Table 8: Nanomaterials regulations and rulings in Asia-Pacific 2017-2018
Table 9: Top ten countries based on number of nanotechnology patents in USPTO
Table 10: Nanomaterials scorecard for aluminium oxide nanoparticles
Table 11: Market summary for aluminium oxide nanoparticles-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 12: Markets, benefits and applications of aluminium oxide nanoparticles
Table 13: Demand of aluminium oxide nanoparticles (tons), 2010-2028. Production volumes are in metric tons unless stated otherwise
Table 14: Prices of aluminium oxide nanoparticles
Table 15: Aluminium oxide nanoparticles producers
Table 16: Nanomaterials scorecard for antimony tin oxide nanoparticles
Table 17: Market summary for antimony tin oxide nanoparticles-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 18: Markets, benefits and applications of antimony tin oxide nanoparticles
Table 19: Demand for antimony tin oxide nanoparticles (tons), 2010-2028
Table 20: Prices of antimony tin oxide nanoparticles
Table 21: Antimony tin oxide nanoparticles producers
Table 22: Nanomaterials scorecard for bismuth oxide nanoparticles
Table 23: Market summary for bismuth oxide nanoparticles-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 24: Markets, benefits and applications of aluminium oxide nanoparticles
Table 25: Demand for bismuth oxide nanoparticles (tons), 2010-2028
Table 26: Prices of bismuth oxide nanoparticles
Table 27: Bismuth oxide nanoparticles producers
Table 28: Nanomaterials scorecard for carbon nanotubes
Table 29: Market summary for carbon nanotubes-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 30: Properties of CNTs and comparable materials
Table 31: Properties of single-walled carbon nanotubes
Table 32: Markets, benefits and applications of Carbon Nanotubes
Table 33: SWNT producer’s production capacities 2017
Table 34: Demand for carbon nanotubes (tons), 2010-2028
Table 35: Prices of carbon nanotubes
Table 36: Example SWNT prices
Table 37: Annual production capacity of MWNT producers
Table 38: SWNT producers production capacities
Table 39: Carbon nanotubes producers
Table 40: Nanomaterials scorecard for cerium oxide nanoparticles
Table 41: Market summary for cerium oxide nanoparticles-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 42: Markets, benefits and applications of cerium oxide nanoparticles
Table 43: Demand for cerium oxide nanoparticles (tons), 2010-2028
Table 44: Prices of cerium oxide nanoparticles
Table 45: Cerium oxide nanoparticles producers
Table 46: Nanomaterials scorecard for cobalt oxide nanoparticles
Table 47: Market summary for cobalt oxide nanoparticles-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 48: Markets, benefits and applications of cobalt oxide nanoparticles
Table 49: Demand for cobalt oxide nanoparticles (tons), 2010-2028
Table 50: Prices of cobalt oxide nanoparticles
Table 51: Cobalt oxide nanoparticles producers
Table 52: Nanomaterials scorecard for copper oxide nanoparticles
Table 53: Market summary for copper oxide nanoparticles -Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 54: Markets, benefits and applications of copper oxide nanoparticles
Table 55: Demand for copper oxide nanoparticles (tons), 2010-2028
Table 56: Example prices of copper oxide nanoparticles
Table 57: Copper oxide nanoparticles producers
Table 58: Nanomaterials scorecard for dendrimers
Table 59: Market summary for dendrimer -Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 60: Types of dendrimer
Table 61: Markets, benefits and applications of dendrimers
Table 62: Dendrimer products
Table 63: Demand for dendrimers (tons), 2010-2028
Table 64: Example prices of dendrimers
Table 65: Dendrimers producers
Table 66: Nanomaterials scorecard for fullerenes
Table 67: Market summary for fullerenes-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 68: Markets, benefits and applications of fullerenes
Table 69: Demand for fullerenes (tons), 2010-2028
Table 70: Example prices of fullerenes
Table 71: Fullerene producers
Table 72: Nanomaterials scorecard for gold nanoparticles
Table 73: Market summary for gold nanoparticles-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 74: Markets, benefits and applications of gold nanoparticles
Table 75: Demand for gold nanoparticles (tons), 2010-2028
Table 76: Example prices of gold nanoparticles
Table 77: Gold nanoparticle producers
Table 78: Nanomaterials scorecard for graphene
Table 79: Market summary for graphene-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 80: Properties of graphene
Table 81: Markets, benefits and applications of graphene
Table 82: Consumer products incorporating graphene
Table 83: Demand for graphene, 2010-2028 in tons/year. Base year for projections is 2015
Table 84: Graphene types and cost per kg
Table 85: Graphene producers and production capacity (Current and projected), prices and target markets
Table 86: Graphene producers
Table 87: Nanomaterials scorecard for iron oxide nanoparticles
Table 88: Market summary for iron oxide nanoparticles-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 89: Markets, benefits and applications of iron oxide nanoparticles
Table 90: Demand for iron oxide nanoparticles (tons), 2010-2028
Table 91: Example prices of iron oxide nanoparticles
Table 92: Iron oxide nanoparticles producers
Table 93: Nanomaterials scorecard for magnesium oxide nanoparticles
Table 94: Market summary for magnesium oxide nanoparticles-Selling grade particle diameter, usage, advantages, average price/ton, market estimates, high volume applications, low volume applications and novel applications
Table 95: Markets, benefits and applications of magnesium oxide nanoparticles
Table 96: Demand for magnesium oxide nanoparticles (tons), 2010-2028
Table 97: Example prices of magnesium oxide nanoparticles
Table 98: Magnesium oxide nanoparticles producers
Table 99: Nanomaterials scorecard for manganese oxide nanoparticles
Table 100: Market summary for manganese oxide nanoparticles-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 101: Markets, benefits and applications of manganese oxide nanoparticles
Table 102: Demand for manganese oxide nanoparticles (tons), 2010-2028
Table 103: Example prices of manganese oxide nanoparticles
Table 104: Manganese oxide nanoparticles producers
Table 105: Nanomaterials scorecard for nanocellulose
Table 106: Market summary for nanocellulose-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 107: Nanocellulose properties
Table 108: Properties and applications of nanocellulose
Table 109: Markets and applications of nanocellulose
Table 110: Demand for nanocellulose (tons), 2010-2028
Table 111: Product/price/application matrix of nanocellulose producers
Table 112: Production capacities of CNF producers per annum in tons, current and planned
Table 113: Production capacities of CNC producers per annum in tons, current and planned
Table 114: Nanocellulose producers
Table 115: Nanomaterials scorecard for nanoclays
Table 116: Market summary for nanoclays -Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 117: Markets, benefits and applications of nanoclays
Table 118: Demand for nanoclays (tons), 2010-2028
Table 119: Example prices of nanoclays
Table 120: Main nanoclays producers, products and target markets
Table 121: Nanoclay producers
Table 122: Nanomaterials scorecard for nanodiamonds
Table 123: Markets, benefits and applications of nanodiamonds
Table 124: Demand for nanodiamonds (tons), 2010-2028
Table 125: Example prices of nanodiamonds
Table 126: Nanodiamonds producers
Table 127: Nanomaterials scorecard for nanofibers
Table 128: Market summary for nanofibers- Selling grade particle diameter, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 129: Markets and applications of nanofibers
Table 130: Markets for nanofiber air and liquid filtration
Table 131: Demand for nanofibers (tons), 2010-2028
Table 132: Nanofibers producers
Table 133: Nanomaterials scorecard for nanosilver
Table 134: Market summary for nanosilver-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 135: Markets, benefits and applications of nanosilver
Table 136: Demand for nanosilver (tons), 2010-2028
Table 137: Example prices of nanosilver
Table 138: Nanosilver producers
Table 139: Nanomaterials scorecard for nanowires
Table 140: Market summary for nanowires-Selling grade particle diameter, usage, advantages, average price/ton, market estimates, high volume applications, low volume applications and novel applications
Table 141: Markets, benefits and applications of nanowires
Table 142: Example prices of nanowires
Table 143: Nanowires producers
Table 144: Nanomaterials scorecard for nickel nanoparticles
Table 145: Market summary for nickel nanoparticles -Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 146: Markets, benefits and applications of nickel nanoparticles
Table 147: Demand for nickel nanoparticles (tons), 2010-2028
Table 148: Example prices of nickel nanoparticles
Table 149: Nickel nanoparticles producers
Table 150: Nanomaterials scorecard for quantum dots
Table 151: Markets, benefits and applications of quantum dots
Table 152: Total QD revenues 2013-2028 ($M), conservative and optimistic estimates
Table 153: Example prices of quantum dots
Table 154: Production of quantum dots
Table 155: Quantum dot producers
Table 156: Nanomaterials scorecard for silicon oxide nanoparticles
Table 157: Market summary for silicon oxide nanoparticles-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 158: Markets, benefits and applications of silicon oxide nanoparticles
Table 159: Demand for silicon oxide nanoparticles (tons), 2010-2028
Table 160: Example prices of silicon oxide nanoparticles
Table 161: Silicon oxide nanoparticles producers
Table 162: Nanomaterials scorecard for titanium dioxide nanoparticles
Table 163: Market summary for titanium dioxide nanoparticles -Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 164: Markets, benefits and applications of titanium dioxide nanoparticles
Table 165: Demand for titanium dioxide nanoparticles (tons), conservative and optimistic estimates
Table 166: Titanium dioxide nanoparticles producers
Table 167: Nanomaterials scorecard for zinc oxide nanoparticles
Table 168: Market summary for zinc oxide nanoparticles-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 169: Markets, benefits and applications of zinc oxide nanoparticles
Table 170: Demand for zinc oxide nanoparticles (tons), 2010-2028
Table 171: Main Zinc oxide nanoparticles-Suppliers, products, primary particle size
Table 172: Zinc oxide nanoparticles producers
Table 173: Nanomaterials scorecard for zirconium oxide nanoparticles
Table 174: Market summary for zirconium oxide nanoparticles-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 175: Markets, benefits and applications of zirconium oxide nanoparticles
Table 176: Demand for zirconium oxide nanoparticles (tons), 2010-2028
Table 177: Prices of zirconium oxide nanoparticles
Table 178: Zirconium oxide nanoparticles producers
Table 179: Markets, benefits and applications of nano precipitated calcium carbonate
Table 180: Nanoprecipitated calcium carbonate nanoparticles producers
Table 181: Schematic of (a) CQDs and (c) GQDs. HRTEM images of (b) C-dots and (d) GQDs showing combination of zigzag and armchair edges (positions marked as 1-4
Table 182: Properties of graphene quantum dots
Table 183: Graphene and carbon quantum dots producers
Table 184: Markets, benefits and applications of hydroxyapatite nanoparticles
Table 185: Hydroxyapatite nanoparticles producers
Table 186: Markets, benefits and applications of palladium nanoparticles
Table 187: Palladium nanoparticles producers
Table 188: Yttrium oxide nanoparticles producers
Table 189: Electronic and mechanical properties of monolayer phosphorene, graphene and MoS2
Table 190: Market opportunity assessment for phosphorene applications
Table 191: Market opportunity assessment for graphitic carbon nitride applications
Table 192: Market opportunity assessment for germanene applications
Table 193: Market opportunity assessment for graphdiyne applications
Table 194: Market opportunity assessment for graphane applications
Table 195: Market opportunity assessment for hexagonal boron nitride applications
Table 196: Market opportunity assessment for molybdenum disulfide applications
Table 197: Market opportunity assessment for Rhenium disulfide (ReS2) and diselenide (ReSe2) applications
Table 198: Market opportunity assessment for silicene applications
Table 199: Market opportunity assessment for stanine/tinene applications
Table 200: Market opportunity assessment for tungsten diselenide applications
 
LIST OF FIGURES
Figure 1: Demand for nanomaterials (tons), 2010-2028
Figure 2: National Nanotechnology (NNI) funding, 2001-2016
Figure 3: Graphene-enabled bendable smartphone
Figure 4: Graphene coated solar panels in China
Figure 5: Nanotechnology patent applications, 1991-2017
Figure 6: Share of nanotechnology related patent applications since 1972, by country
Figure 7: Demand for aluminium oxide nanoparticles, by market 2017
Figure 8: Demand for aluminium oxide nanoparticles, by market 2028
Figure 9: Technology Readiness Level (TRL) for Aluminium Oxide Nanoparticles
Figure 10: Demand of aluminium oxide nanoparticles (tons), 2010-2028
Figure 11: Demand for Aluminium Oxide Nanoparticles by region 2017
Figure 12: Demand for Aluminium Oxide Nanoparticles by region 2028
Figure 13: Demand for antimony tin oxide nanoparticles, by market 2017
Figure 14: Demand for antimony tin oxide nanoparticles, by market 2028
Figure 15: Technology Readiness Level (TRL) for Antimony Tin Oxide Nanoparticles
Figure 16: Demand for antimony tin oxide nanoparticles (tons), 2010-2028
Figure 17: Demand of Antimony Tin Oxide Nanoparticles by region 2017
Figure 18: Demand of Antimony Tin Oxide Nanoparticles by region 2028
Figure 19: Demand for bismuth oxide nanoparticles, by market 2017
Figure 20: Demand for bismuth oxide nanoparticles, by market 2027
Figure 21: Technology Readiness Level (TRL) for Bismuth Oxide Nanoparticles
Figure 22: Demand for bismuth oxide nanoparticles (tons), 2010-2028
Figure 23: Demand for Bismuth Oxide Nanoparticles by region 2017
Figure 24: Demand for Bismuth Oxide Nanoparticles by region 2028
Figure 25: Double-walled carbon nanotube bundle cross-section micrograph and model
Figure 26: Technology Readiness Level (TRL) for Carbon Nanotubes
Figure 27: Demand for carbon nanotubes, by market 2017
Figure 28: Demand for carbon nanotubes, by market 2028
Figure 29: Demand for single-walled carbon nanotubes, by market 2017
Figure 30: Demand for carbon nanotubes (tons), 2010-2028
Figure 31: Dme and for Carbon Nanotubes by region 2017
Figure 32: Dme and for Carbon Nanotubes by region 2028
Figure 33: Technology Readiness Level (TRL) for cerium oxide nanoparticles
Figure 34: Demand for cerium oxide nanoparticles, by market 2017
Figure 35: Demand for cerium oxide nanoparticles, by market 2028
Figure 36: Demand for cerium oxide nanoparticles (tons), 2010-2028
Figure 37: Demand for Cerium Oxide Nanoparticles by region 2017
Figure 38: Demand for Cerium Oxide Nanoparticles by region 2028
Figure 39: Demand for cobalt oxide nanoparticles, by market 2017
Figure 40: Demand for cobalt oxide nanoparticles, by market 2028
Figure 41: Technology Readiness Level (TRL) for Cobalt Oxide Nanoparticles
Figure 42: Demand for cobalt oxide nanoparticles (tons), 2010-2028
Figure 43: Demand for Cobalt Oxide Nanoparticles by region 2017
Figure 44: Demand for Cobalt Oxide Nanoparticles by region 2028
Figure 45: Demand for copper oxide nanoparticles by market, 2017
Figure 46: Demand for copper oxide nanoparticles by market, 2028
Figure 47: Technology Readiness Level (TRL) for copper oxide nanoparticles
Figure 48: Demand for copper oxide nanoparticles (tons), 2010-2028
Figure 49: Demand for copper oxide nanoparticles by region, 2017
Figure 50: Demand for copper oxide nanoparticles by region, 2028
Figure 51: Dendrimer structure
Figure 52: Dendrimer schematic for application in biomedicine
Figure 53: Technology Readiness Level (TRL) for dendrimers
Figure 54: Demand for dendrimers by market, 2017
Figure 55: Demand for dendrimers by market, 2028
Figure 56: Demand for dendrimers (tons), 2010-2028
Figure 57: Demand for dendrimers by region 2017
Figure 58: Demand for dendrimers by region 2028
Figure 59: Technology Readiness Level (TRL) for fullerenes
Figure 60: Demand for fullerenes, by market 2017
Figure 61: Demand for fullerenes, by market 2028
Figure 62: Demand for fullerenes (tons), 2010-2028
Figure 63: Demand for fullerenes by region 2017
Figure 64: Demand for fullerenes by region 2028
Figure 65: Technology Readiness Level (TRL) for gold nanoparticles
Figure 66: Demand for gold nanoparticles, by market 2017
Figure 67: Demand for gold nanoparticles, by market 2028
Figure 68: Demand for gold nanoparticles (tons), 2010-2028
Figure 69: Demand for gold nanoparticles by region 2017
Figure 70: Demand for gold nanoparticles by region 2028
Figure 71: Graphene layer structure schematic
Figure 72: Technology Readiness Level (TRL) for graphene
Figure 73: Demand for graphene, by market 2017
Figure 74: Demand for graphene, by market 2028
Figure 75: Demand for graphene 2010-2028 in tons/year
Figure 76: Production volumes of graphene by region 2017
Figure 77: Production volumes of graphene by region 2028
Figure 78: Graphene pricing 2017
Figure 79: Technology Readiness Level (TRL) for iron oxide nanoparticles
Figure 80: Demand for iron oxide nanoparticles, by market 2017
Figure 81: Demand for iron oxide nanoparticles, by market 2028
Figure 82: Demand for iron oxide nanoparticles (tons), 2010-2028
Figure 83: Demand for iron oxide nanoparticles by region 2017
Figure 84: Demand for iron oxide nanoparticles by region 2028
Figure 85: Technology Readiness Level (TRL) for magnesium oxide nanoparticles
Figure 86: Demand for magnesium oxide nanoparticles, by market 2017
Figure 87: Demand for magnesium oxide nanoparticles, by market 2028
Figure 88: Demand for magnesium oxide nanoparticles (tons), 2010-2028
Figure 89: Demand for magnesium oxide nanoparticles by region 2017
Figure 90: Demand for magnesium oxide nanoparticles by region 2028
Figure 91: Technology Readiness Level (TRL) for manganese oxide nanoparticles
Figure 92: Demand for manganese oxide nanoparticles, by market 2017
Figure 93: Demand for manganese oxide nanoparticles, by market 2028
Figure 94: Demand for manganese oxide nanoparticles (tons), 2010-2028
Figure 95: Demand for manganese oxide nanoparticles by region 2017
Figure 96: Demand for manganese oxide nanoparticles by region 2028
Figure 97: Types of nanocellulose
Figure 98: Technology Readiness Level (TRL) for nanocellulose
Figure 99: Demand for nanocellulose, by market 2017
Figure 100: Demand for nanocellulose, by market 2028
Figure 101: Demand for nanocellulose (tons), 2010-2028
Figure 102: Demand for nanocellulose by region 2017
Figure 103: Demand for nanocellulose by region 2028
Figure 104: Nanoclays structure. The dimensions of a clay platelet are typically 200-1000 nm in lateral dimension and 1 nm thick
Figure 105: TEM of montmorillonite
Figure 106: TEM of halloysite nanotubes
Figure 107: Technology Readiness Level (TRL) for nanoclays
Figure 108: Demand for nanoclays, by market 2017
Figure 109: Demand for nanoclays, by market 2028
Figure 110: Demand for nanoclays (tons), 2010-2028
Figure 111: Demand for nanoclays by region 2017
Figure 112: Demand for nanoclays by region 2028
Figure 113: Demand for nanodiamonds, by market 2017
Figure 114: Demand for nanodiamonds, by market 2028
Figure 115: Technology Readiness Level (TRL) for nanodiamonds
Figure 116: Demand for nanodiamonds, 2010-2028
Figure 117: Demand for nanodiamonds by region
Figure 118: Technology Readiness Level (TRL) for nanofibers
Figure 119: Demand for nanofibers, by market
Figure 120: Production volumes of nanofibers (tons), 2010-2028
Figure 121: Demand for nanofibers by region
Figure 122: Supply chain for nanosilver products
Figure 123: Demand for nanosilver, by market 2017
Figure 124: Demand for nanosilver, by market 2028
Figure 125: Technology Readiness Level (TRL) for nanosilver
Figure 126: Demand for nanosilver (tons), 2010-2028
Figure 127: Demand for nanosilver, by region 2017
Figure 128: Demand for nanosilver, by region 2028
Figure 129: Technology Readiness Level (TRL) for nanowires
Figure 130: Demand for nanowires, by market 2017
Figure 131: Demand for nanowires, by market 2028
Figure 132: Demand for nanowires, by region 2017
Figure 133: Demand for nanowires, by region 2028
Figure 134: Demand for nickel nanoparticles, by market 2017
Figure 135: Demand for nickel nanoparticles, by market 2028
Figure 136: Technology Readiness Level (TRL) for nickel nanoparticles
Figure 137: Demand for nickel nanoparticle (tons), 2010-2028
Figure 138: Demand for nickel nanoparticles, by region 2017
Figure 139: Demand for nickel nanoparticles, by region 2028
Figure 140: Quantum dot
Figure 141: The light-blue curve represents a typical spectrum from a conventional white-LED LCD TV. With quantum dots, the spectrum is tunable to any colours of red, green, and blue, and each Color is limited to a narrow band
Figure 142: Technology Readiness Level (TRL) for quantum dots
Figure 143: Demand for quantum dots, by market 2017
Figure 144: Demand for quantum dots, by market 2028
Figure 145: Total QD revenues 2013-2028 ($M), conservative and optimistic estimates
Figure 146: Demand quantum dots by region 2017
Figure 147: Demand quantum dots by region 2028
Figure 148: Technology Readiness Level (TRL) for silicon oxide nanoparticles
Figure 149: Demand for silicon oxide nanoparticles, by market 2017
Figure 150: Demand for silicon oxide nanoparticles, by market 2028
Figure 151: Demand for silicon oxide nanoparticles (tons), 2010-2028
Figure 152: Demand for silicon oxide nanoparticles by region 2017
Figure 153: Demand for silicon oxide nanoparticles by region 2028
Figure 154: Technology Readiness Level (TRL) for Titanium Oxide Nanoparticles
Figure 155: Demand for titanium dioxide nanoparticles, by market 2017
Figure 156: Demand for titanium dioxide nanoparticles, by market 2028
Figure 157: Demand for titanium dioxide nanoparticles (tons), conservative and optimistic estimates 2010-2028
Figure 158: Demand for titanium dioxide nanoparticles, by region 2017
Figure 159: Demand for titanium dioxide nanoparticles, by region 2028
Figure 160: Demand for zinc oxide nanoparticles, by market 2017
Figure 161: Demand for zinc oxide nanoparticles, by market 2028
Figure 162: Demand for zinc oxide nanoparticles (tons), 2010-2028
Figure 163: Production volumes of zinc oxide nanoparticles, by region 2017
Figure 164: Production volumes of zinc oxide nanoparticles, by region 2028
Figure 165: Demand for zirconium oxide nanoparticles, by market 2017
Figure 166: Demand for zirconium oxide nanoparticles, by market 2028
Figure 167: Demand for zirconium oxide nanoparticles (tons), 2010-2028
Figure 168: Demand for zirconium oxide nanoparticles, by region 2017
Figure 169: Demand for zirconium oxide nanoparticles, by region 2028
Figure 170: Applications of yttrium oxide nanoparticles
Figure 171: TEM image of carbon onion
Figure 172: Schematic representation of carbon nanohorns
Figure 173: Schematic of Boron Nitride nanotubes (BNNTs). Alternating B and N atoms are shown in blue and red
Figure 174: Black phosphorus structure
Figure 175: Black Phosphorus crystal
Figure 176: Bottom gated flexible few-layer phosphorene transistors with the hydrophobic dielectric encapsulation
Figure 177: Graphitic carbon nitride
Figure 178: Structural difference between graphene and C2N-h2D crystal: (a) graphene; (b) C2N-h2D crystal. Credit: Ulsan National Institute of Science and Technology
Figure 179: Schematic of germanene
Figure 180: Graphdiyne structure
Figure 181: Schematic of Graphane crystal
Figure 182: Structure of hexagonal boron nitride
Figure 183: Structure of 2D molybdenum disulfide
Figure 184: SEM image of MoS2
Figure 185: Schematic of a monolayer of rhenium disulfide
Figure 186: Silicene structure
Figure 187: Monolayer silicene on a silver (111) substrate
Figure 188: Silicene transistor
Figure 189: Crystal structure for stanene
Figure 190: Atomic structure model for the 2D stanene on Bi2Te3(111)
Figure 191: Schematic of tungsten diselenide
Figure 192: Schematic of Indium Selenide (InSe)

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