The Carbon Nanotubes Global Opportunity Report - Product Image

The Carbon Nanotubes Global Opportunity Report

  • ID: 3837295
  • Report
  • Region: Global
  • 670 Pages
  • Future Markets, Inc
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Carbon nanotubes (CNTs) have been attracted huge attention over the past two decades, based on their extraordinary physical and chemical properties that are a result of their intrinsic nano-sized one-dimensional nature. Once the most promising of all nanomaterials, CNTs face stiff competition in conductive applications from graphene and other 2D materials and in mechanically enhanced composites from nanocellulose. However, after considerable research efforts, numerous multi-walled carbon nanotubes (MWNTs)-enhanced products are commercially available. Super-aligned CNT arrays, films and yarns have found applications in consumer electronics, batteries, polymer composites, aerospace, sensors, heaters, filters and biomedicine. Large-scale industrial production of single-walled carbon nanotubes (SWNTs) has been initiated, promising new market opportunities in transparent conductive films, transistors, sensors and memory devices. SWNTs are regarded as one of the most promising candidates to utilized as building blocks in next generation electronics.

What Does The Report Include?

  • Assessment of the carbon nanotubes market including production volumes, competitive landscape, commercial prospects, applications,  commercialization timelines, prices and producer profiles.
  • Assessment of end user markets for carbon nanotubes including market drivers and trends, applications, market opportunity, market challenges and application and product developer profiles.
  • Unique assessment tools for the carbon nanotubes, end user applications, economic impact, addressable markets and market challenges to provide the complete picture of where the real opportunities in carbon nanotubes are.
  • Full company profiles of carbon nanotubes producers and application developers including technology descriptions and end user markets targeted.
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1 Research Methodology
1.1 Nanomaterials Market Rating System
1.2 Commercial Impact Rating System
1.3 Market Challenges Rating System

2 Executive Summary
2.1 Exceptional properties
2.2 Products and applications
2.3 Threat from the graphene market
2.4 Production
2.4.1 Multi-walled nanotube (MWNT) production
2.4.2 Single-walled nanotube (SWNT) production
2.5 Global demand for carbon nanotubes
2.5.1 Current products
2.5.2 Future products
2.6 Market drivers and trends
2.6.1 Electronics
2.6.1.1 EMI/RFI shielding
2.6.1.2 Transparent conductive film
2.6.1.3 Silicon replacement
2.6.2 Electric vehicles and lithium-ion batteries
2.7 Market and production challenges
2.7.1 Safety issues
2.7.2 Dispersion
2.7.3 Synthesis and supply quality
2.7.4 Cost
2.7.5 Competition from other materials
2.8 Competitive analysis of carbon nanotubes and graphene

3 Introduction
3.1 Properties of nanomaterials
3.2 Categorization
3.3 Carbon Nanotubes
3.3.1 Multi-walled nanotubes (MWNT)
3.3.2 Single-wall carbon nanotubes (SWNT)
3.3.2.1 Single-chirality
3.3.3 Double-walled carbon nanotubes (DWNTs)
3.3.4 Few-walled carbon nanotubes (FWNTs)
3.3.5 Carbon Nanohorns (CNHs)
3.3.6 Carbon Onions
3.3.7 Fullerenes
3.3.8 Boron Nitride nanotubes (BNNTs)
3.4 Properties
3.5 Applications of carbon nanotubes
3.5.1 High volume applications
3.5.2 Low volume applications
3.5.3 Novel applications

4 Comparative Analysis With Graphene
4.1 Comparative properties
4.2 Cost and production
4.3 Carbon nanotube-graphene hybrids
4.4 Competitive market analysis of carbon nanotubes and graphene

5 Carbon Nanotube Synthesis
5.1 Arc discharge synthesis
5.2 Chemical Vapor Deposition (CVD)
5.3 Plasma enhanced chemical vapor deposition (PECVD)
5.4 High-pressure carbon monoxide synthesis
5.4.1 High Pressure CO (HiPco)
5.4.2 CoMoCAT
5.5 Flame synthesis
5.6 Laser ablation synthesis
5.7 Silane solution method

6 Carbon Nanotubes Market Structure

7 Regulations And Standards
7.1 Europe
7.1.1 REACH
7.1.2 Biocidal Products Regulation
7.1.3 National nanomaterials registers
7.1.4 Cosmetics regulation
7.1.5 Food safety
7.2 United States
7.2.1 Toxic Substances Control Act (TSCA)
7.3 Asia
7.3.1 Japan
7.3.2 South Korea
7.3.3 Taiwan
7.3.4 Australia

8 Carbon Nanotubes Patents

9 Carbon Nanotubes Technology Readiness Level

10 Carbon Nanotubes End User Market Segment Analysis
10.1 Production volumes in metric tons, 2010-2025
10.2 Carbon nanotube producer production capacities
10.3 Regional demand for carbon nanotubes
10.3.1 Japan
10.3.2 China
10.4 Main carbon nanotubes producers
10.4.1 SWNT production
10.4.1.1 OCSiAl
10.4.1.2 FGV Cambridge Nanosystems
10.4.1.3 Zeon Corporation
10.5 Price of carbon nanotubes-MWNTs, SWNTs and FWNTs
10.5.1 MWNTs
10.5.2 SWNTs
10.6 Applications

11 Carbon Nanotubes Industry News 2013-2017
11.1 January 2013
11.2 August 2013
11.3 November 2013
11.4 December 2013
11.5 January 2014
11.6 February 2014
11.7 March 2014
11.8 April 2014
11.9 May 2014
11.10 July 2014
11.11 September 2014
11.12 January 2015
11.13 February 2015
11.14 March 2015
11.15 April 2015
11.16 May 2015
11.17 June 2015
11.18 July 2015
11.19 September 2015
11.20 December 2015
11.21 April 216
11.22 May 2016
11.23 June 2016
11.24 August 2016
11.25 September 2016
11.26 October 2016
11.27 November 2016
11.28 December 2016
11.29 January 2017
11.30 February 2017
11.31 March 2017
11.32 April 2017
11.33 May 2017
11.34 June 2017

12 Electronics
12.1 Flexible Electronics, Conductive Films And Displays
12.1.1 Market Drivers And Trends
12.1.1.1 Growth in wearable electronics
12.1.1.2 Touch technology requirements
12.1.2 Applications
12.1.2.1 Transparent electrodes in flexible electronics
12.1.2.2 SWNTs
12.1.2.3 Double-walled carbon nanotubes
12.1.3 Market Size And Opportunity
12.1.3.1 Touch panel and ITO replacement
12.1.3.2 Wearable electronics
12.1.4 Market Challenges
12.1.4.1 Fabricating SWNT devices
12.1.4.2 Competing materials
12.1.5 Product Developers
12.2 Conductive Inks
12.2.1 Market Drivers And Trends
12.2.1.1 Increased demand for printed electronics
12.2.1.2 Limitations of existing conductive inks
12.2.1.3 Growth in the 3D printing market
12.2.1.4 Growth in the printed sensors market
12.2.2 Applications
12.2.3 Market Size And Opportunity
12.2.4 Market Challenges
12.2.5 Product Developers
12.3 Transistors, Integrated Circuits And Other Components
12.3.1 Market Drivers And Trends
12.3.1.1 Scaling
12.3.1.2 Limitations Of Current Materials
12.3.1.3 Limitations Of Copper As Interconnect Materials
12.3.1.4 Need To Improve Bonding Technology
12.3.1.5 Need To Improve Thermal Properties
12.3.2 Applications
12.3.2.1 Thin film transistors (TFT)
12.3.2.2 Electronics packaging
12.3.2.3 Thermal management
12.3.2.4 Insulation
12.3.3 Market Size And Opportunity
12.3.4 Market Challenges
12.3.5 Product Developers
12.4 Memory Devices
12.4.1 Market Drivers And Trends
12.4.1.1 Density And Voltage Scaling
12.4.1.2 Growth In The Smartphone And Tablet Markets
12.4.1.3 Growth In The Flexible Electronics Market
12.4.2 Applications
12.4.3 Market Size And Opportunity
12.4.4 Market Challenges
12.4.5 Product Developers

13 Composites
13.1 Market Drivers And Trends
13.1.1 Growing use of polymer composites
13.1.2 Increased need for advanced, protective materials
13.1.3 Improved performance over traditional composites
13.1.4 Multi-functionality
13.1.5 Growth in use in the wind energy market
13.1.6 Need for new flame retardant materials
13.1.7 Environmental impact of carbon fibers
13.1.8 Shortcomings of natural fiber composites and glass fiber reinforced composites
13.2 Applications
13.2.1 Electrostatic discharge (ESD) and electromagnetic interference (EMI) shielding
13.2.2 Wind turbines
13.2.3 Construction
13.2.4 Sporting goods
13.2.5 Ballistic protection
13.2.6 Wire and cable
13.2.7 Thermal management
13.2.8 Elastomers and rubber
13.3 Market Size And Opportunity
13.4 Market Challenges
13.5 Product Developers

14 Aerospace And Aviation
14.1 Market Drivers And Trends
14.1.1 Safety
14.1.2 Reduced fuel consumption and costs
14.1.3 Increased durability
14.1.4 Multi-functionality
14.1.5 Need for new de-icing solutions
14.1.6 Weight reduction
14.1.7 Need for improved lightning protection materials
14.2 Applications
14.2.1 Composites
14.2.1.1 ESD protection
14.2.1.2 Conductive cables
14.2.1.3 Anti-friction braking systems
14.2.2 Coatings
14.2.2.1 Anti-icing
14.2.3 Sensors
14.3 Market Size And Opportunity
14.3.1 Market Challenges
14.4 Product Developers

15 Automotive
15.1 Market Driver And Trends
15.1.1 Environmental regulations
15.1.2 Lightweighting
15.1.3 Increasing use of natural fiber composites
15.1.4 Safety
15.1.5 Cost
15.1.6 Need for enhanced conductivity in fuel components
15.1.7 Increase in the use of touch-based automotive applications
15.2 Applications
15.2.1 Composites
15.2.2 Lithium-ion batteries in electric and hybrid vehicles
15.2.3 Coatings
15.2.3.1 Thermally conductive
15.2.3.2 Flame retardant
15.2.4 Tires
15.3 Market Size And Opportunity
15.3.1 Composites
15.3.2 Coatings
15.4 Market Challenges
15.5 Product Developers

16 Biomedical & Healthcare
16.1 Market Drivers And Trends
16.1.1 Improved drug delivery for cancer therapy
16.1.2 Shortcomings of chemotherapies
16.1.3 Biocompatibility of medical implants
16.1.4 Modern healthcare demands for novel diagnostic tools
16.1.5 Growth in the handheld point-of-care market
16.1.6 Growth in the wearable monitoring market
16.1.7 Need for improved medical imaging
16.1.8 Biocompatibility of medical implants
16.1.9 Implant infections
16.1.10 Failure of metal implants
16.1.11 Aging population driving growth
16.2 Applications
16.2.1 Cancer therapy
16.2.1.1 Drug delivery
16.2.1.2 Immunotherapy
16.2.1.3 Thermal ablation
16.2.1.4 Stem cell therapy
16.2.2 Medical implants
16.2.3 Biosensors
16.2.4 Medical imaging and diagnositcs
16.2.5 Tissue engineering
16.3 Market Size And Opportunity
16.3.1 Biosensors
16.3.2 Drug formulation and delivery
16.3.3 Diagnostics
16.3.4 Medical implants
16.4 Market Challenges
16.4.1 Potential Toxicity
16.4.2 Safety
16.4.3 Dispersion
16.4.4 Cost
16.5 Product Developers

17 Coatings
17.1 Market Drivers And Trends
17.1.1 Sustainability And Regulation
17.1.2 Cost Of Corrosion
17.1.3 Improved Hygiene
17.1.4 Cost Of Weather-Related Damage
17.2 Applications
17.2.1 Anti-static coatings
17.2.2 Anti-corrosion coatings
17.2.2.1 Oil and gas
17.2.2.2 Marine
17.2.3 Anti-microbial
17.2.4 Anti-icing
17.2.5 Heat protection
17.2.6 Anti-fouling
17.2.7 Wear and abrasion resistance
17.3 Market Size And Opportunity
17.4 Product Developers

18 Filtration And Separation
18.1 Market Drivers And Trends
18.1.1 Water shortage and population growth
18.1.2 Need for improved and low cost membrane technology
18.1.3 Need for improved groundwater treatment technologies
18.1.4 Cost and efficiency
18.1.5 Growth in the air filter market
18.1.6 Need for environmentally, safe filters
18.2 Applications
18.2.1 Desalination and water filtration
18.2.2 Airborne filters
18.2.3 Gas separation
18.3 Market Size And Opportunity
18.4 Applications
18.5 Market Challenges
18.5.1 Uniform pore size and distribution
18.5.2 Reducing pore size for improved desalination
18.5.3 Difficulties of CNT growth
18.5.4 Cost
18.6 Product Developers

19 Energy Storage, Conversion And Exploration Markets
19.1 Batteries
19.1.1 Market Drivers And Trends
19.1.1.1 Growth in personal electronics, electric vehicles and smart grids markets
19.1.1.2 Reduce dependence on lithium
19.1.1.3 Shortcomings of existing battery and supercapacitor technology
19.1.1.4 Reduced costs for widespread application
19.1.1.5 Power sources for flexible electronics
19.2 Applications
19.2.1 Lithium-ion batteries (LIB)
19.2.1.1 CNT Anodes
19.2.1.2 CNT Cathodes
19.3 Market Size And Opportunity
19.4 Market Challenges
19.5 Supercapacitors
19.5.1 Market Drivers And Trends
19.5.1.1 Reducing costs
19.5.1.2 Demand from portable electronics
19.5.1.3 Inefficiencies of standard battery technology
19.5.1.4 Problems with activated carbon
19.6 Applications
19.6.1 Graphene/CNT hybrids
19.7 Market Size And Opportunity
19.8 Photovoltaics
19.8.1 Market Drivers And Trends
19.8.1.1 Need to improve solar cell efficiency
19.8.1.2 Reduce costs
19.8.1.3 Varying environmental conditions
19.9 Applications
19.9.1 Organic-inorganic perovskite solar cells
19.10 Market Size And Opportunity
19.11 Fuel Cells
19.11.1 Market Drivers
19.11.1.1 Limitations of platinum
19.11.1.2 Cost
19.12 Applications
19.12.1 Electrocatalyst supports
19.13 Market Size And Opportunity
19.14 Oil And Gas
19.14.1 Market Drivers And Trends
19.14.1.1 Need to reduce operating costs and improve operation efficiency
19.14.1.2 Increased demands of drilling environments
19.14.1.3 Increased exploration in extreme environments
19.14.1.4 Environmental and regulatory
19.14.2 Applications
19.14.2.1 Sensing and reservoir management
19.14.2.2 Coatings
19.14.2.3 Drilling fluids
19.14.2.4 Sorbent materials
19.15 Market Size And Opportunity
19.16 Market Challenges
19.17 Product Developers

20 Sensors
20.1 Market Drivers And Trends
20.1.1 Increased power and performance with reduced cost
20.1.2 Enhanced sensitivity
20.1.3 Replacing silver electrodes
20.1.4 Growth in the home diagnostics and point of care market
20.1.5 Improved thermal stability
20.2 Applications
20.2.1 Gas sensors
20.2.2 Pressure sensors
20.2.3 Biosensors
20.2.4 Infrared (IR) sensors
20.3 Market Size And Opportunity
20.4 Market Challenges
20.5 Product Developers

21 3D Printing
21.1.1 Market Drivers And Trends
21.1.1.1 Improved materials at lower cost
21.1.1.2 Limitations of current thermoplastics
21.2 Applications
21.3 Market Size And Opportunity
21.4 Market Challenges
21.5 Product Developers

22 Adhesives
22.1 Market Drivers And Trends
22.1.1 Thermal Management In High Temperature Electronics
22.1.1.1 Environmental Sustainability
22.2 Applications
22.3 Market Size And Opportunity
22.4 Market Challenges
22.5 Product Developers

23 Lubricants
23.1 Market Drivers And Trends
23.1.1 Need For New Additives That Provide “More For Less”
23.1.2 Need For Higher-Performing Lubricants For Fuel Efficiency
23.1.3 Environmental Concerns
23.2 Applications
23.3 Market Size And Opportunity
23.4 Market Challenges
23.5 Product Developers

24 Textiles
24.1 Market Drivers And Trends
24.1.1 Growth In The Wearable Electronics Market
24.1.2 Growth In Remote Health Monitoring And Diagnostics
24.2 Applicatons
24.2.1 Protective textiles
24.2.2 Electronic textiles
24.2.3 Superhydrophobic coatings
24.2.4 Conductive coatings
24.2.5 Flame retardant textiles
24.3 Market Size And Opportunity
24.3.1 Protective textiles
24.3.2 Electronic textiles
24.4 Market Challenges
24.5 Product Developers

25 Carbon Nanotubes Producers And Product Developers

List of Tables

Table 1: Nanomaterials scorecard for carbon nanotubes
Table 2: Market summary for carbon nanotubes-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 3: Properties of CNTs and comparable materials
Table 4: Annual production capacity of MWNT and SWNT producers
Table 5: SWNT producers production capacities 2015
Table 6: Global production of carbon nanotubes, 2010-2025 in tons/year. Base year for projections is 2014
Table 7: Competitive analysis of Carbon nanotubes and graphene by application area and potential impact by 2025
Table 8: Categorization of nanomaterials
Table 9: Comparison between single-walled carbon nanotubes (SWCNT) and multi-walled carbon nanotubes
Table 10: Properties of carbon nanotubes
Table 11: Comparative properties of carbon materials
Table 12: Comparative properties of graphene with nanoclays and carbon nanotubes
Table 13: Competitive analysis of Carbon nanotubes and graphene by application area and potential impact by 2025
Table 14: SWNT synthesis methods
Table 15: Carbon nanotubes market structure
Table 16: National nanomaterials registries in Europe
Table 17: Nanomaterials regulatory bodies in Australia
Table 18: Top ten countries based on number of nanotechnology patents in USPTO 2014-2015
Table 19: Production volumes of carbon nanotubes (tons), 2010-2025
Table 20: Annual production capacity of MWNT producers
Table 21: SWNT producers production capacities 2015
Table 22: Example carbon nanotubes prices
Table 23: Markets, benefits and applications of Carbon Nanotubes
Table 24: Comparison of ITO replacements
Table 25: Overview of Metal-based TCFs
Table 26: Application markets, competing materials, nanomaterials advantages and current market size in flexible substrates
Table 27: Carbon nanotubes in the flexible electronics, conductive films and displays market-applications, stage of commercialization and estimated economic impact
Table 28: Market challenges rating for carbon nanotubes in the flexible electronics, conductive films and displays market
Table 29: Carbon nanotubes product and application developers in transparent conductive films and displays
Table 30: Comparative properties of conductive inks
Table 31: Opportunities for nanomaterials in printed electronics
Table 32: Carbon nanotubes in the conductive inks market-applications, stage of commercialization and estimated economic impact
Table 33: Market challenges rating for carbon nanotubes in the conductive inks market
Table 34: Carbon nanotubes product and application developers in conductive inks
Table 35: Comparison of Cu, CNTs and graphene as interconnect materials
Table 36: Carbon nanotubes in the transistors, integrated circuits and other components market-applications, stage of commercialization and estimated economic impact
Table 37: Market challenges rating for carbon nanotubes in the transistors, integrated circuits and other components market
Table 38: Carbon nanotubes product and application developers in transistors, integrated circuits and other components
Table 39: Applications in memory devices, by nanomaterials type and benefits thereof
Table 40: Carbon nanotubes in the memory devices market-applications, stage of commercialization and estimated economic impact
Table 41: Market challenges rating for carbon nanotubes in the memory devices market
Table 42: Carbon nanotubes product and application developers in memory devices
Table 43: Comparative properties of polymer composites reinforcing materials
Table 44: Carbon nanotubes in thermal management composites, by nanomaterials type and benefits thereof
Table 45: Carbon nanotubes in the composites market-applications, stage of commercialization and estimated economic impact
Table 46: Market challenges rating for carbon nanotubes in the composites market
Table 47: Carbon nanotubes product and application developers in the composites industry
Table 48: Types of nanocoatings utilized in aerospace and application
Table 49: Carbon nanotubes in the aerospace and aviation market-applications, stage of commercialization and estimated economic impact
Table 50: Market challenges rating for carbon nanotubes in the aerospace market
Table 51: Carbon nanotubes product and application developers in the aerospace industry
Table 52: Applications of natural fiber composites in vehicles by manufacturers
Table 53: Applications in automotive composites, by nanomaterials type and benefits thereof
Table 54: Nanocoatings applied in the automotive industry
Table 55: Application markets, competing materials, nanomaterials advantages and current market size in the automotive sector
Table 56: Carbon nanotubes in the automotive market-applications, stage of commercialization and estimated economic impact
Table 57: Applications and commercailization challenges in the automotive market
Table 58: Market challenges rating for carbon nanotubes in the automotive market
Table 59: Carbon nanotubes product and application developers in the automotive industry
Table 60: Applications of carbon nanotubes in drug formulation and delivery
Table 61: CNTs in life sciences and biomedicine
Table 62: Applications in medical imaging and diagnostics, by nanomaterials type and benefits thereof
Table 63: Nanotechnology and nanomaterials opportunity in the medical biosensors market-applications, stage of commercialization and estimated economic impact
Table 64: Nanotechnology and nanomaterials opportunity in the drug formulation and delivery market-applications, stage of commercialization and estimated economic impact
Table 65: Nanotechnology and nanomaterials opportunity in the imaging and diagnostics market-applications, stage of commercialization and estimated economic impact
Table 66: Nanotechnology and nanomaterials opportunity in medical implants and devices market-applications, stage of commercialization and estimated economic impact
Table 67: Carbon nanotubes product and application developers in the medical and healthcare industry
Table 68: Carbon nanotubes in the coatings market-applications, stage of commercialization and addressable market size
Table 69: Carbon nanotubes product and application developers in the coatings industry
Table 70: Types of filtration
Table 71: Applications in desalination and water filtration, by nanomaterials type and benefits thereof
Table 72: Applications in gas separation, by nanomaterials type and benefits thereof
Table 73: Carbon nanotubes in the filtration and environmental remediation market-applications, stage of commercialization and estimated economic impact
Table 74: Comparison of CNT membranes with other membrane technologies
Table 75: Market challenges rating for carbon nanotubes in the filtration and environmental remediation market
Table 76: Carbon nanotubes product and application developers in the filtration industry
Table 77: Applications in LIB, by nanomaterials type and benefits thereof
Table 78: Carbon nanotubes in the batteries market-applications, stage of commercialization and estimated economic impact
Table 79: Market challenges in batteries
Table 80: Market challenges rating for carbon nanotubes in the batteries market
Table 81: Properties of carbon materials in high-performance supercapacitors
Table 82: Nanotechnology and nanomaterials in the oil and gas market-applications, stage of commercialization and estimated economic impact
Table 83: Market challenges rating for carbon nanotubes in the oil and gas exploration market
Table 84: Carbon nanotubes product and application developers in the energy industry
Table 85: Applications in strain sensors
Table 86: First generation point of care diagnostics
Table 87: Nanotechnology and nanomaterials in the sensors market-applications, stage of commercialization and estimated economic impact
Table 88: Market challenges rating carbon nanotubes in the sensors market
Table 89: Carbon nanotubes product and application developers in the sensors industry
Table 90: Applications in 3D printing, by nanomaterials type and benefits thereof
Table 91: Nanotechnology and nanomaterials in the 3D printing market-applications, stage of commercialization and estimated economic impact
Table 92: Market challenges rating for carbon nanotubes in the 3D printing market
Table 93: Carbon nanotubes product and application developers in the 3D printing industry
Table 94: Nanomaterials properties relevant to application in adhesives
Table 95: Applications in adhesives, by nanomaterials type and benefits thereof
Table 96: Nanomaterials in the adhesives market-applications, stage of commercialization and estimated economic impact
Table 97: Market challenges rating for nanotechnology and nanomaterials in the adhesives market
Table 98: Carbon nanotubes product and application developers in the adhesives industry
Table 99: Applications of carbon nanotubes in lubricants
Table 100: Applications in lubricants, by nanomaterials type and benefits thereof
Table 101: Nanotechnology and nanomaterials in lubricants market-applications, stage of commercialization and estimated economic impact
Table 102: Market challenges rating for carbon nanotubes in the lubricants market
Table 103: Carbon nanotubes product and application developers in the lubricants industry
Table 104: Desirable functional properties for the textiles industry afforded by the use of nanomaterials
Table 105: Applications in textiles, by nanomaterials type and benefits thereof
Table 106: Nanocoatings applied in the textiles industry-type of coating, nanomaterials utilized, benefits and applications
Table 107: Nanomaterials in the textiles market-applications, stage of commercialization and estimated economic impact
Table 108: Market challenges rating for nanotechnology and nanomaterials in the textiles and apparel market
Table 109: Carbon nanotubes product and application developers in the textiles industry
Table 110: CNT producers and companies they supply/licence to

List of Figures

Figure 1: Molecular structures of SWNT and MWNT
Figure 2: Production capacities for SWNTs in kilograms, 2005-2014
Figure 3: Schematic of single-walled carbon nanotube
Figure 4: Double-walled carbon nanotube bundle cross-section micrograph and model
Figure 5: Schematic representation of carbon nanohorns
Figure 6: TEM image of carbon onion
Figure 7: Fullerene schematic
Figure 8: Schematic of Boron Nitride nanotubes (BNNTs). Alternating B and N atoms are shown in blue and red
Figure 9: Graphene can be rolled up into a carbon nanotube, wrapped into a fullerene, and stacked into graphite
Figure 10: Schematic representation of methods used for carbon nanotube synthesis (a) Arc discharge (b) Chemical vapor deposition (c) Laser ablation (d) hydrocarbon flames
Figure 11: Arc discharge process for CNTs
Figure 12: Schematic of thermal-CVD method
Figure 13: Schematic of plasma-CVD method
Figure 14: CoMoCAT® process
Figure 15: Schematic for flame synthesis of carbon nanotubes (a) premixed flame (b) counter-flow diffusion flame (c) co-flow diffusion flame (d) inverse diffusion flame
Figure 16: Schematic of laser ablation synthesis
Figure 17: Nanotechnology patent applications, 1991-2015
Figure 18: Share of nanotechnology related patent applications since 1972, by country
Figure 19: CNT patents filed 2000-2014
Figure 20: Patent distribution of CNT application areas to 2014
Figure 21: Technology Readiness Level (TRL) for Carbon Nanotubes
Figure 22: Production volumes of carbon nanotubes (tons), 2010-2025
Figure 23: Production capacities for SWNTs in kilograms, 2005-2014
Figure 24: Demand for carbon nanotubes, by market
Figure 25: Production volumes of Carbon Nanotubes 2015, by region
Figure 26: Regional demand for CNTs utilized in batteries
Figure 27: Regional demand for CNTs utilized in Polymer reinforcement
Figure 28: Global touch panel market ($ million), 2011-2018
Figure 29: Capacitive touch panel market forecast by layer structure (Ksqm)
Figure 30: Global transparent conductive film market forecast (million $)
Figure 31: Global transparent conductive film market forecast by materials type, 2015, %
Figure 32: Global transparent conductive film market forecast by materials type, 2020, %
Figure 33: Global market for smart wearables (Millions US$)
Figure 34: A large transparent conductive graphene film (about 20 × 20 cm2) manufactured by 2D Carbon Tech. Figure 24a (right): Prototype of a mobile phone produced by 2D Carbon Tech using a graphene touch panel
Figure 35: Global touch panel market ($ million), 2011-2018
Figure 36: Capacitive touch panel market forecast by layer structure (Ksqm)
Figure 37: Global transparent conductive film market forecast (million $)
Figure 38: Global transparent conductive film market forecast by materials type, 2012-2020, millions $
Figure 39: Global transparent conductive film market forecast by materials type, 2015, %
Figure 40: Global transparent conductive film market forecast by materials type, 2020, %
Figure 41: Global market for smart sports clothing (Millions US$)
Figure 42: Global market for smart wearables (Millions US$)
Figure 43: Nanotube inks
Figure 44: Global market for conductive inks and pastes in printed electronics
Figure 45: Transistor architecture trend chart
Figure 46: Schematic cross-section of a graphene based transistor (GBT, left) and a graphene field-effect transistor (GFET, right)
Figure 47: CMOS Technology Roadmap
Figure 48: Figure 38: Thin film transistor incorporating CNTs
Figure 49: Emerging logic devices
Figure 50: Stretchable CNT memory and logic devices for wearable electronics
Figure 51: Graphene oxide-based RRAm device on a flexible substrate
Figure 52: Emerging memory devices
Figure 53: Carbon nanotubes NRAM chip
Figure 54: Schematic of NRAM cell
Figure 55: Nanomaterials-based automotive components
Figure 56: The Tesla S’s touchscreen interface
Figure 57: Global Paints and Coatings Market, share by end user market
Figure 58: Energy densities and specific energy of rechargeable batteries
Figure 59: Nano Lithium X Battery
Figure 60: Suntech/TCNT nanotube frame module
Figure 61: 3D Printed tweezers incorporating Carbon Nanotube Filament

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