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Market Research Report

The Global Market for Graphene

Published by Future Markets, Inc. Product code 335657
Published will be released Content info 551 Pages
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The Global Market for Graphene
Published: will be released Content info: 551 Pages
Description

There are over 200 companies globally producing graphene materials or developing products incorporating graphene and this number is growing as OEMs witness the benefits offered by graphene. Recent product launches include graphene-based bicycle and automotive tires, sportswear, concrete, thermal coatings, smart phone batteries, supercapacitors, water filtration membranes and composites. Major corporations including Ford (automotive composites) and Huawei (cooling films for smartphones) have integrated graphene into their products.

Now in it's 25th edition (first published 2009), ‘The Global Market for Graphene ’ provides a complete analysis for the market for these exceptional materials, including competition, production, revenues, markets, applications, producers and product developers.

Report contents include:

  • New Commercialized graphene products.
  • New section on Graphene Quantum Dots.
  • New demand estimates for graphene by market.
  • Global production capacities-historical, current and forecast to 2030.
  • Market segmentation by graphene type.
  • Stage of commercialization for graphene applications, from basic research to market entry.
  • Market drivers, trends and challenges, by end user markets.
  • Competitive landscape of graphene among other carbon-based additives (MWCNT, SWCNT, Carbon Fibers, Carbon Black, etc.)
  • In-depth market assessment of opportunities for graphene including tonnage demand by market, growth rates, pricing, most likely applications and market challenges.
  • Market demand in tonnes, USD, CAGR 2018-2030
  • In-depth company profiles, including products, capacities, and commercial activities.
  • Detailed forecasts for key growth areas, opportunities and user demand.
  • Assessment of applications for other 2D materials.
  • Over 200 company profiles including production, products, target markets.
  • Data on addressable markets for graphene (revenues), relevant applications, graphene technology fit and competition from other materials.
  • New information on demand by regional market.
  • Latest product and investment news.
  • Commercial production capacities by company, and by year, for Graphene Oxide, Graphene Nanolatelets and CVD Graphene in tons and m2
  • Industrial collaborations and licence agreements
  • Markets targeted, by product developers and end users
  • Types of graphene produced, by producer
  • Graphene applications by industry, material, and product
  • Over 200 company profiles including Applied Graphene Materials plc, Bonbouton, Carbon Gates Technologies LLC, Carbon Waters, Directa Plus plc, Dotz Nano Ltd., First Graphene Ltd, Grafoid, Inc., Gratomic, Inc., Graphenall Co., Ltd., Graphenea Nanomaterials, Gratomic, Inc., Grolltex, Inc., Haydale Limited, Paragraf Ltd., The Sixth Element (Changzhou) Materials Technology Co., Ltd., Skeleton Technologies OÜ, Standard Graphene, Thomas Swan & Co. Ltd., Versarien plc., ZEN Graphene Solutions Ltd. etc
Table of Contents

Table of Contents

1. RESEARCH METHODOLOGY

2. EXECUTIVE SUMMARY

  • 2.1. Two-dimensional (2D) materials
  • 2.2. Graphene
    • 2.2.1. The market in 2016
    • 2.2.2. The market in 2017
    • 2.2.3. The market in 2018
    • 2.2.4. The market in 2019
    • 2.2.5. Production
    • 2.2.6. Products
    • 2.2.7. Graphene investments 2017-2019
  • 2.3. Market outlook
    • 2.3.1. Global funding and initiatives
    • 2.3.2. Products and applications
    • 2.3.3. Production capacities in 2019
  • 2.4. Market drivers and trends
  • 2.5. Graphene industrial collaborations and licence agreements
  • 2.6. Market and technical challenges
  • 2.7. Global demand for graphene by region to 2030
    • 2.7.1. Asia
    • 2.7.2. Australia
    • 2.7.3. North America
    • 2.7.4. Europe

3. OVERVIEW OF GRAPHENE

  • 3.1. History
  • 3.2. Types of graphene
  • 3.3. Properties
  • 3.4. 3D Graphene

4. GRAPHENE QUANTUM DOTS

  • 4.1. Properties
    • 4.1.1. Carbon quantum dots
    • 4.1.2. Graphene quantum dots
  • 4.2. Synthesis
    • 4.2.1 Recent synthesis methods
  • 4.3. Markets
    • 4.3.1. Optoelectronics
    • 4.3.2. Photocatalysis
    • 4.3.3. Sensors
    • 4.3.4. Quantum computing
    • 4.3.5. Batteries
    • 4.3.6. Fuel cells
    • 4.3.7. Photovoltaics
    • 4.3.8. Lighting (OLED)
    • 4.3.9. Biomedicine and life sciences
    • 4.3.10. Catalysis
    • 4.3.11. Printing
    • 4.3.12. Anti-counterfeiting
    • 4.3.13. Detergents
  • 4.4. Market and technology challenges
  • 4.5. Prices
  • 4.6. GQD Producers

5. OTHER 2-D MATERIALS

  • 5.3. BOROPHENE
  • 5.4. PHOSPHORENE
  • 5.5. GRAPHITIC CARBON NITRIDE (g-C3N4)
  • 5.6. GERMANENE
  • 5.7. GRAPHDIYNE
  • 5.8. GRAPHANE
  • 5.9. HEXAGONAL BORON-NITRIDE
  • 5.10. MOLYBDENUM DISULFIDE (MoS2)
  • 5.11. RHENIUM DISULFIDE (ReS2) AND DISELENIDE (ReSe2)
  • 5.12. SILICENE
  • 5.13. STANENE/TINENE
  • 5.14. TUNGSTEN DISELENIDE
  • 5.15. ANTIMONENE
  • 5.16. DIAMENE
  • 5.17. INDIUM SELENIDE
  • 5.18. COMPARATIVE ANALYSIS OF GRAPHENE AND OTHER 2D MATERIALS

6. GRAPHENE SYNTHESIS AND PRODUCTION

7. GRAPHENE MARKET STRUCTURE AND ROUTES TO COMMERCIALIZATION

8. REGULATIONS AND STANDARDS

9. PATENTS AND PUBLICATIONS

10. GRAPHENE COMMERCIAL ROADMAP END USER MARKET SEGMENT ANALYSIS

  • 11.1. Graphene production volumes 2010-2030
  • 11.2. Commercial production capacities
    • 11.2.1. Graphene oxide production capacities
      • 11.2.1.1. By producer
      • 11.2.1.2. By region
    • 11.2.2. Graphene nanoplatelets production capacities
      • 11.2.2.1. By producer
      • 11.2.2.2. Production capacity by region
    • 11.2.3. CVD graphene film
      • 11.2.3.1. By producer
    • 11.2.4. Planned graphene capacities onwards
  • 11.3. Graphene pricing
    • 11.3.1. Pristine Graphene Flakes pricing
    • 11.3.2. Few-Layer Graphene pricing
    • 11.3.3. Graphene Nanoplatelets pricing
    • 11.3.4. Reduced Graphene Oxide pricing
    • 11.3.5. Graphene Quantum Dots pricing
    • 11.3.6. Graphene Oxide Nanosheets pricing
    • 11.3.7. Multilayer Graphene (MLG) pricing
  • 11.4. Mass production challenges
    • 11.4.1. Mass production of lower grade graphene materials
    • 11.4.2. High grade graphene difficult to mass produce
    • 11.4.3. Bulk supply
    • 11.4.4. Commoditisation

12. 3D PRINTING

  • 12.1. MARKET OVERVIEW
  • 12.2. MARKET DRIVERS AND TRENDS
  • 12.3. PROPERTIES AND APPLICATIONS
  • 12.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 12.4.1. Global market demand 2017-2030
  • 12.5. MARKET CHALLENGES
  • 12.6. PRODUCT DEVELOPERS

13. ADHESIVES

  • 13.1. MARKET OVERVIEW
  • 13.2. MARKET DRIVERS AND TRENDS
  • 13.3. PROPERTIES AND APPLICATIONS
  • 13.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 13.4.1. Market assessment
    • 13.4.2. Global market demand 2017-2030
  • 13.5. MARKET CHALLENGES
  • 13.6. PRODUCT DEVELOPERS

14. AVIATION AND AEROSPACE

  • 14.1. MARKET OVERVIEW
  • 14.2. MARKET DRIVERS AND TRENDS
  • 14.3. PROPERTIES AND APPLICATIONS
    • 14.3.1. Composites
    • 14.3.2. Coatings
  • 14.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 14.4.1. Global market demand 2017-2030
  • 14.5. MARKET CHALLENGES
  • 14.6. PRODUCT DEVELOPERS

15. AUTOMOTIVE

  • 15.1. MARKET OVERVIEW
  • 15.2. MARKET DRIVER AND TRENDS
  • 15.3. PROPERTIES AND APPLICATIONS
    • 15.3.1. Composites
    • 15.3.2. Thermally conductive additives
    • 15.3.3. Tires
  • 15.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 15.4.1. Global market demand 2017-2030
  • 15.5. MARKET CHALLENGES
  • 15.6. PRODUCT DEVELOPERS

16. COATINGS AND PAINTS

  • 16.1. MARKET OVERVIEW
  • 16.2. MARKET DRIVERS AND TRENDS
  • 16.3. PROPERTIES AND APPLICATIONS
    • 16.3.1. Anti-corrosion coatings
      • 16.3.1.1. Marine
    • 16.3.2. Anti-microbial
    • 16.3.3. Anti-icing
    • 16.3.4. Barrier coatings
    • 16.3.5. Heat protection
    • 16.3.6. Anti-fouling
    • 16.3.7. Wear and abrasion resistance
    • 16.3.8. Smart windows
  • 16.4. GLOBAL MARKET SIZE AND OPPORTUNITY
  • 16.5. MARKET CHALLENGES
  • 16.6. PRODUCT DEVELOPERS

17. COMPOSITES

  • 17.1. MARKET OVERVIEW
  • 17.2. MARKET DRIVERS AND TRENDS
  • 17.3. PROPERTIES AND APPLICATIONS
    • 17.3.1. Polymer composites
    • 17.3.2. Barrier packaging
    • 17.3.3. Electrostatic discharge (ESD) and electromagnetic interference (EMI) shielding
    • 17.3.4. Wind turbines
    • 17.3.5. Ballistic protection
  • 17.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 17.4.1. Fiber-based polymer composite parts
      • 17.4.1.1. Market assessment
      • 17.4.1.2. Potential market demand based on penetration forecasts for composites
    • 17.4.2. Metal-matrix composites
      • 17.4.2.1. Potential market demand based on penetration forecasts
  • 17.5. MARKET CHALLENGES
  • 17.6. PRODUCT DEVELOPERS

18. FLEXIBLE ELECTRONICS, WEARABLES, CONDUCTIVE FILMS AND DISPLAYS

  • 18.1. MARKET OVERVIEW
  • 18.2. MARKET DRIVERS AND TRENDS
  • 18.3. APPLICATIONS
    • 18.3.1. Transparent electrodes in flexible electronics
    • 18.3.2. Electronic paper
    • 18.3.3. Wearable electronics
      • 18.3.3.1. Wearable sensors
    • 18.3.4. Industrial monitoring
    • 18.3.5. Military
  • 18.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 18.4.1. Transparent conductive films
      • 18.4.1.1. Market overview
      • 18.4.1.2. Market assessment
      • 18.4.1.3. Market revenues
  • 18.5. MARKET CHALLENGES
  • 18.6. PRODUCT DEVELOPERS

19. CONDUCTIVE INKS

  • 19.1. MARKET OVERVIEW
  • 19.2. MARKET DRIVERS AND TRENDS
  • 19.3. APPLICATIONS
    • 19.3.1. RFID
    • 19.3.2. Smart labels
    • 19.3.3. Smart clothing
    • 19.3.4. Printable sensors
    • 19.3.5. Printed batteries
    • 19.3.6. Printable antennas
  • 19.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 19.4.1. Global market demand 2017-2030
  • 19.5. MARKET CHALLENGES
  • 19.6. PRODUCT DEVELOPERS

20. TRANSISTORS AND INTEGRATED CIRCUITS

  • 20.1. MARKET OVERVIEW
  • 20.2. MARKET DRIVERS AND TRENDS
  • 20.3. APPLICATIONS
    • 20.3.1. Integrated circuits
    • 20.3.2. Flexible integrated circuits
    • 20.3.3. Transistors
    • 20.3.4. Graphene Radio Frequency (RF) circuits
    • 20.3.5. Other 2D transistors
    • 20.3.6. Graphene spintronics
  • 20.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 20.4.1. Global market demand 2017-2030
  • 20.5. MARKET CHALLENGES
  • 20.6. PRODUCT DEVELOPERS

21. MEMORY DEVICES

  • 21.1. MARKET OVERVIEW
  • 21.2. MARKET DRIVERS AND TRENDS
  • 21.3. APPLICATIONS
  • 21.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 21.4.1. Global market demand 2017-2030
  • 21.5. MARKET CHALLENGES
  • 21.6. PRODUCT DEVELOPERS

22. PHOTONICS

  • 22.1. MARKET OVERVIEW
  • 22.2. MARKET DRIVERS AND TRENDS
  • 22.3. PROPERTIES AND APPLICATIONS
    • 22.3.1. Si photonics versus graphene
    • 22.3.2. Optical modulators
    • 22.3.3. Photodetectors
    • 22.3.4. Saturable absorbers
    • 22.3.5. Plasmonics
    • 22.3.6. Fiber lasers
  • 22.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 22.4.1. Global market demand 2017-2030
  • 22.5. MARKET CHALLENGES
  • 22.6. PRODUCT DEVELOPERS

23. BATTERIES

  • 23.1. MARKET OVERVIEW
  • 23.2. MARKET DRIVERS AND TRENDS
  • 23.3. APPLICATIONS
    • 23.3.1. Lithium-ion batteries (LIB)
    • 23.3.2. Fiber-shaped Lithium-Ion batteries
    • 23.3.3. Lithium-air batteries
    • 23.3.4. Lithium-sulfur batteries (Li-S)
    • 23.3.5. Sodium-ion batteries
    • 23.3.6. Flexible and stretchable batteries
  • 23.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 23.4.1. Market assessment
    • 23.4.2. Global market demand 2017-2030
  • 23.5. MARKET CHALLENGES
  • 23.6. PRODUCT DEVELOPERS

24. SUPERCAPACITORS

  • 24.1. MARKET OVERVIEW
  • 24.2. MARKET DRIVERS AND TRENDS
  • 24.3. APPLICATIONS
    • 24.3.1. Flexible and stretchable supercapacitors
  • 24.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 24.4.1. Global market demand 2017-2030
  • 24.5. MARKET CHALLENGES
  • 24.6. PRODUCT DEVELOPERS

25. PHOTOVOLTAICS

  • 25.1. MARKET OVERVIEW
  • 25.2. MARKET DRIVERS AND TRENDS
  • 25.3. APPLICATIONS
    • 25.3.1. ITO replacement
    • 25.3.2. Graphene-silicon (Gr-Si) Schottky junction solar cells
    • 25.3.3. Halide perovskites/graphene hybrids
    • 25.3.4. Solar energy harvesting textiles
  • 25.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 25.4.1. Global market demand 2017-2030
  • 25.5. MARKET CHALLENGES
  • 25.6. PRODUCT DEVELOPERS

26. FUEL CELLS

  • 26.1. MARKET OVERVIEW
  • 26.2. MARKET DRIVERS AND TRENDS
  • 26.3. APPLICATIONS
    • 26.3.1. Electrocatalyst supports
  • 26.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 26.4.1. Market assessment
    • 26.4.2. Global market demand 2017-2030
  • 26.5. MARKET CHALLENGES
  • 26.6. PRODUCT DEVELOPERS

27. LIGHTING

  • 27.1. MARKET OVERVIEW
  • 27.2. MARKET DRIVERS AND TRENDS
  • 27.3. APPLICATIONS
    • 27.3.1. Flexible OLED lighting
  • 27.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 27.4.1. Global market demand 2017-2030
  • 27.5. MARKET CHALLENGES
  • 27.6. PRODUCT DEVELOPERS

28. OIL AND GAS

  • 28.1. MARKET OVERVIEW
  • 28.2. MARKET DRIVERS AND TRENDS
  • 28.3. APPLICATIONS
    • 28.3.1. Sensing and reservoir management
    • 28.3.2. Coatings
    • 28.3.3. Drilling fluids
    • 28.3.4. Sorbent materials
    • 28.3.5. Catalysts
    • 28.3.6. Separation
  • 28.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 28.4.1. Global market demand 2017-2030
  • 28.5. MARKET CHALLENGES
  • 28.6. PRODUCT DEVELOPERS

29. FILTRATION

  • 29.1. MARKET OVERVIEW
  • 29.2. MARKET DRIVERS AND TRENDS
  • 29.3. APPLICATIONS
    • 29.3.1. Graphene membranes
    • 29.3.2. Water filtration
    • 29.3.3. Gas separation
    • 29.3.4. Photocatalytic absorbents
    • 29.3.5. Air filtration
  • 29.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 29.4.1. Global market demand 2017-2030
  • 29.5. MARKET CHALLENGES
  • 29.6. PRODUCT DEVELOPERS

30. LIFE SCIENCES AND BIOMEDICINE

  • 30.1. MARKET OVERVIEW
  • 30.2. MARKET DRIVERS AND TRENDS
  • 30.3. APPLICATIONS
    • 30.3.1. Cancer therapy
      • 30.3.1.1. Graphene oxide for therapy and drug delivery
      • 30.3.1.2. Graphene nanosheets
    • 30.3.2. Gene delivery
      • 30.3.2.1. Photodynamic Therapy
    • 30.3.3. Medical implants and devices
    • 30.3.4. Wound dressings
    • 30.3.5. Biosensors
      • 30.3.5.1. FRET biosensors for DNA detection
    • 30.3.6. Medical imaging
    • 30.3.7. Tissue engineering
    • 30.3.8. Dental
    • 30.3.9. Electrophysiology
    • 30.3.10. Wearable and mobile health monitoring
    • 30.3.11. Graphene devices
    • 30.3.12. Patch-type skin sensors
    • 30.3.13. Skin temperature monitoring
    • 30.3.14. Hydration sensors
    • 30.3.15. Wearable sweat sensors
    • 30.3.16. Smart footwear
  • 30.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 30.4.1. Wearable healthcare
    • 30.4.2. Global market demand 2017-2030
  • 30.5. MARKET CHALLENGES
  • 30.6. PRODUCT DEVELOPERS

31. LUBRICANTS

  • 31.1. MARKET OVERVIEW
  • 31.2. MARKET DRIVERS AND TRENDS
  • 31.3. APPLICATIONS
  • 31.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 31.4.1. Market assessment
  • 31.5. MARKET CHALLENGES
  • 31.6. PRODUCT DEVELOPERS

32. SENSORS

  • 32.1. MARKET OVERVIEW
  • 32.2. MARKET DRIVERS AND TRENDS
  • 32.3. APPLICATIONS
    • 32.3.1. Infrared (IR) sensors
    • 32.3.2. Electrochemical and gas sensors
    • 32.3.3. Graphene foam
    • 32.3.4. Pressure sensors
    • 32.3.5. Biosensors
    • 32.3.6. Optical sensors
    • 32.3.7. Humidity sensors
    • 32.3.8. Strain sensors
    • 32.3.9. Acoustic sensors
    • 32.3.10. Wireless sensors
    • 32.3.11. Surface enhanced Raman scattering
  • 32.4. GLOBAL MARKET SIZE AND OPPORTUNITY
    • 32.4.1. Global market demand 2017-2030
  • 32.5. MARKET CHALLENGES
  • 32.6. PRODUCT DEVELOPERS

33. TEXTILES AND APPAREL

  • 33.1. MARKET OVERVIEW
  • 33.2. MARKET DRIVERS AND TRENDS
  • 33.3. APPLICATONS
    • 33.3.1. Conductive coatings
    • 33.3.2. Conductive yarns
    • 33.3.3. Sportswear
    • 33.3.4. Graphene sports and outdoor shoes
    • 33.3.5. Safety boots
    • 33.3.6. Industrial textiles
  • 33.4. GLOBAL MARKET SIZE AND OPPORTUNITY
  • 33.5. MARKET CHALLENGES
  • 33.6. PRODUCT DEVELOPERS

34. CONSTRUCTION

  • 34.1. APPLICATIONS
    • 34.1.1. Cement
      • 34.1.1.1. Market overview
      • 34.1.1.2. Market assessment
    • 34.1.2. Asphalt bitumen
    • 34.1.3. Ultra-high-performance concrete
  • 34.2. GLOBAL MARKET SIZE AND OPPORTUNITY
  • 34.3. PRODUCT DEVELOPERS

35. RUBBER ADDITIVES

  • 35.1. MARKET OVERVIEW
  • 35.2. APPLICATIONS
  • 35.3. Tyres
    • 35.3.1. Market overview
    • 35.3.2. Market assessment
    • 35.3.3. Market revenues
  • 35.4. Rubber technical goods
    • 35.4.1. Market overview
    • 35.4.2. Market revenues
  • 35.5. MARKET CHALLENGES
  • 35.6. PRODUCT DEVELOPERS

36. GRAPHENE COMPANY PROFILES

37. REFERENCES

Tables

  • Table 1: Categorization of nanomaterials
  • Table 2: Demand for graphene (tons), 2010-2030
  • Table 3: Consumer products incorporating graphene
  • Table 4: Graphene investments and financial agreements 2017-2019
  • Table 5: Market opportunity assessment matrix for graphene applications
  • Table 6: Graphene target markets-Applications and potential addressable market size
  • Table 7: Main graphene producers by country and annual production capacities 2019
  • Table 8: Graphene industrial collaborations, licence agreements and target markets
  • Table 9: Properties of graphene
  • Table 10. Comparison of graphene QDs and semiconductor QDs
  • Table 11. Photoluminescent properties of GQDs
  • Table 12. Synthesis methods for graphene quantum dots
  • Table 13. Recent synthesis methods for GQDs
  • Table 14. Graphene Quantum Dots in optoelectronics
  • Table 15. Graphene Quantum Dots in photocatalysis
  • Table 16. Graphene Quantum Dots in batteries
  • Table 17. Graphene Quantum Dots in fuel cells
  • Table 18. Graphene Quantum Dots in photovoltaics
  • Table 19. Graphene Quantum Dots in biomedicine and life sciences
  • Table 20. Graphene Quantum Dots in anti-counterfeiting
  • Table 21. Graphene Quantum Dots in detergents
  • Table 22. Market and technical challenges for Graphene Quantum Dots
  • Table 23. Pricing of Graphene Quantum Dots
  • Table 24: 2D materials types
  • Table 25: Electronic and mechanical properties of monolayer phosphorene, graphene and MoS2
  • Table 26: Market opportunity assessment for phosphorene applications
  • Table 27: Market opportunity assessment for graphitic carbon nitride applications
  • Table 28: Market opportunity assessment for germanene applications
  • Table 29: Market opportunity assessment for graphdiyne applications
  • Table 30: Market opportunity assessment for graphane applications
  • Table 31: Market opportunity assessment for hexagonal boron nitride applications
  • Table 32: Market opportunity assessment for molybdenum disulfide applications
  • Table 33: Market opportunity assessment for Rhenium disulfide (ReS2) and diselenide (ReSe2) applications
  • Table 34: Market opportunity assessment for silicene applications
  • Table 35: Market opportunity assessment for stanine/tinene applications
  • Table 36: Market opportunity assessment for tungsten diselenide applications
  • Table 37: Comparative analysis of graphene and other 2-D nanomaterials
  • Table 38: Large area graphene films-Markets, applications and current global market
  • Table 39: Graphene oxide flakes/graphene nanoplatelets-Markets, applications and current global market
  • Table 40: Main production methods for graphene
  • Table 41: Large area graphene films-Markets, applications and current global market
  • Table 42: Graphene market structure
  • Table 43: Published patent publications for graphene, 2004-2018
  • Table 44: Leading graphene patentees
  • Table 45: Demand for graphene (tons), 2010-2030
  • Table 46: Graphene oxide production capacity by producer, 2010-2018
  • Table 47: Graphene oxide production capacity in tons by region, 2010-2018
  • Table 48: Graphene nanoplatelets capacity in tons by producer, 2010-2018
  • Table 49: Graphene nanoplatelets capacity in tons by region, 2010-2018
  • Table 50: CVD graphene film capacity in tons by producer, 2010-2018/ 000s m2
  • Table 51: Planned graphene production capacities
  • Table 52: Types of graphene and prices
  • Table 53: Pristine graphene flakes pricing by producer
  • Table 54: Few-layer graphene pricing by producer
  • Table 55: Graphene nanoplatelets pricing by producer
  • Table 56: Reduced graphene oxide pricing, by producer
  • Table 57: Graphene quantum dots pricing by producer
  • Table 58: Graphene oxide nanosheets pricing by producer
  • Table 59: Multi-layer graphene pricing by producer
  • Table 60: Market overview for graphene in 3D printing
  • Table 61: Market drivers for use of graphene in 3D printing
  • Table 62: Graphene properties relevant to application in 3D printing
  • Table 63: Market size for graphene in 3D printing
  • Table 64: Market opportunity assessment for graphene in 3D printing
  • Table 65. Market and applications for SWCNTs in adhesives
  • Table 66. Graphene market demand in 3D printing 2017-2030
  • Table 67: Market challenges rating for nanotechnology and nanomaterials in the 3D printing market
  • Table 68: Product developers in graphene 3D printing
  • Table 69: Market overview for graphenes in adhesives
  • Table 70: Market drivers for use of graphene in adhesives
  • Table 71: Graphene properties relevant to application in adhesives
  • Table 72: Applications and benefits of graphene in adhesives
  • Table 73. Market and applications for SWCNTs in adhesives
  • Table 74: Market size for graphene in adhesives
  • Table 75: Market opportunity assessment for graphene in adhesives
  • Table 76: Market challenges rating for graphene in the adhesives market
  • Table 77: Product developers in graphene adhesives
  • Table 78: Market overview for graphene in aviation and aerospace
  • Table 79: Market drivers for use of graphene in aviation and aerospace
  • Table 80: Applications and benefits of graphene in aviation and aerospace
  • Table 81: Market size for graphene in aviation and aerospace
  • Table 82: Market opportunity assessment for graphene in aviation and aerospace
  • Table 83: Demand for graphene in aviation and aerospace 2017-2030
  • Table 84: Market challenges rating for graphene in the aerospace market
  • Table 85: Product developers in aviation and aerospace
  • Table 86: Market overview for graphene in automotive
  • Table 87: Market drivers for use of graphene in the automotive sector
  • Table 88: Applications and benefits of graphene in the automotive industry
  • Table 89: Market size for graphene in the automotive industry
  • Table 90: Market opportunity assessment for graphene in the automotive industry
  • Table 91: Demand for graphene in automotive, 2017-2030
  • Table 92: Market challenges rating for graphene in the automotive sector
  • Table 93: Product developers in graphene automotive
  • Table 94: Market overview for graphene in coatings
  • Table 95: Properties of nanocoatings
  • Table 96: Graphene properties relevant to application in coatings
  • Table 97. Market and applications for graphene in coatings
  • Table 98: Markets for nanocoatings
  • Table 99: Market opportunity assessment for graphene in the coatings market
  • Table 100: Demand for graphene in coatings (tons), 2018-2030
  • Table 101: Market challenges rating for graphene in the coatings market
  • Table 102: Product developers in graphene paints and coatings
  • Table 103: Market overview for graphene in composites
  • Table 104: Market drivers for use of graphene in composites
  • Table 105. Advanced composites, properties and materials
  • Table 106: Graphene properties relevant to application in polymer composites
  • Table 107: Applications and benefits of graphene in composites
  • Table 108: Market size for graphene in composites
  • Table 109: Market opportunity assessment for graphene in the composites market
  • Table 110: Demand for graphene in composites (tons), 2018-2030
  • Table 111. Market and applications for graphene in fiber-based composite parts
  • Table 112. Market and applications for graphene in metal matrix composites
  • Table 113: Market challenges rating for graphene in the composites market
  • Table 114: Product developers in graphene composites
  • Table 115: Market overview for graphene in flexible electronics, wearables, conductive films and displays
  • Table 116: Market drivers for use of graphene in flexible electronics and conductive films
  • Table 117: Applications and benefits of graphene in flexible electronics and conductive films
  • Table 118: Comparison of ITO replacements
  • Table 119: Graphene properties relevant to application in sensors
  • Table 120: Market size for graphene in flexible electronics and conductive films
  • Table 121: Market opportunity assessment for graphene in flexible electronics, wearables, conductive films and displays
  • Table 122: Global market for wearable electronics, 2015-2027, by application, billions $
  • Table 123: Demand for graphene in flexible electronics (tons), 2018-2030
  • Table 124: Market overview for graphene in transparent conductive films
  • Table 125. Market and applications for graphene in transparent conductive films
  • Table 126. Graphene market demand in transparent conductive films
  • Table 127: Market challenges rating for graphene in the flexible electronics, wearables, conductive films and displays market
  • Table 128: Product developers in graphene-based electronics
  • Table 129: Market overview for graphene in conductive inks
  • Table 130: Market drivers for use of graphene in conductive inks
  • Table 131: Comparative properties of conductive inks
  • Table 132: Printable electronics products
  • Table 133: Opportunities for advanced materials in printed electronics
  • Table 134: Applications in flexible and stretchable batteries, by nanomaterials type and benefits thereof
  • Table 135: Market opportunity assessment for graphene in conductive inks
  • Table 136: Conductive inks in the flexible and stretchable electronics market 2017-2027 revenue forecast (million $), by ink types
  • Table 137: Demand for graphene in conductive ink (tons), 2018-2027
  • Table 138: Market impediments for graphene in conductive inks
  • Table 139: Product developers in graphene conductive inks
  • Table 140: Market overview for graphene in transistors and integrated circuits
  • Table 141: Market drivers for use of graphene in transistors, integrated circuits and other components
  • Table 142: Comparative properties of silicon and graphene transistors
  • Table 143: Applications and benefits of graphene in transistors, integrated circuits and other components
  • Table 144: Market size for graphene in transistors, integrated circuits and other components
  • Table 145: Market opportunity assessment for graphene in transistors, integrated circuits and other components
  • Table 146: Demand for graphene in transistors and integrated circuits, 2017-2030
  • Table 147: Market challenges rating for graphene in the transistors and integrated circuits market
  • Table 148: Product developers in graphene transistors and integrated circuits
  • Table 149: Market overview for graphene in memory devices
  • Table 150: Market drivers for use of graphene in memory devices
  • Table 151: Market size for graphene in memory devices
  • Table 152: Demand for graphene in memory devices, 2017-2030
  • Table 153: Applications and commercialization challenges for graphene in the memory devices market
  • Table 154: Product developers in graphene memory devices
  • Table 155: Market overview for graphene in photonics
  • Table 156: Market drivers for use of graphene in photonics
  • Table 157: Graphene properties relevant to application in optical modulators
  • Table 158: Applications and benefits of graphene in photonics
  • Table 159: Market size for graphene in photonics
  • Table 160: Demand for graphene in photonics, 2017-2030
  • Table 161: Market challenges rating for graphene in the photonics market
  • Table 162: Product developers in graphene photonics
  • Table 163: Market overview for graphene in batteries
  • Table 164: Market drivers for use of graphene in batteries
  • Table 165: Applications in flexible and stretchable batteries, by materials type and benefits thereof
  • Table 166. Market and applications for graphene in batteries
  • Table 167: Market size for graphene in batteries
  • Table 168: Potential addressable market for thin film, flexible and printed batteries
  • Table 169: Market opportunity assessment for graphene in batteries
  • Table 170. Graphene market demand in batteries
  • Table 171: Market challenges for graphene in batteries
  • Table 172: Market challenges rating for graphene in the batteries market
  • Table 173: Product developers in graphene batteries
  • Table 174: Market overview for graphene in supercapacitors
  • Table 175: Market drivers for use of graphene in supercapacitors
  • Table 176: Comparative properties of graphene supercapacitors and lithium-ion batteries
  • Table 177: Applications and benefits of graphene in supercapacitors
  • Table 178: Applications in flexible and stretchable supercapacitors, by nanomaterials type and benefits thereof
  • Table 179: Market size for graphene in supercapacitors
  • Table 180: Market opportunity assessment for graphene in supercapacitors
  • Table 181: Demand for graphene in supercapacitors, 2017-2030
  • Table 182: Market challenges rating for graphene in the supercapacitors market
  • Table 183: Product developers in graphene supercapacitors
  • Table 184: Market overview for graphene in photovoltaics
  • Table 185: Market drivers for use of graphene in photovoltaics
  • Table 186: Market size for graphene in photovoltaics
  • Table 187: Market size for graphene in photovoltaics
  • Table 188: Potential addressable market for photovoltaics
  • Table 189: Demand for graphene in photovoltaics, 2017-2030
  • Table 190: Market challenges rating for graphene in the solar market
  • Table 191: Product developers in graphene solar
  • Table 192: Market overview for graphene in fuel cells
  • Table 193: Market drivers for use of graphene in fuel cells and hydrogen storage
  • Table 194: Applications and benefits of graphene in fuel cells and hydrogen storage
  • Table 195. Market and applications for graphene in fuel cells
  • Table 196: Market size for graphene in fuel cells and hydrogen storage
  • Table 197: Market opportunity assessment for graphene in fuel cells and hydrogen storage
  • Table 198: Demand for graphene in fuel cells, 2018-2030
  • Table 199: Market challenges rating for graphene in the fuel cells market
  • Table 200. SWCNT market demand in fuel cells
  • Table 201: Product developers in graphene fuel cells
  • Table 202: Market overview for graphene in lighting
  • Table 203: Market drivers for use of graphene in LED lighting and UVC
  • Table 204: Applications of graphene in lighting
  • Table 205: Market size for graphene in LED lighting and UVC
  • Table 206: Investment opportunity assessment for graphene in the lighting market
  • Table 207: Demand for graphene in lighting, 2017-2030
  • Table 208: Market impediments for graphene in lighting
  • Table 209: Product developers in graphene lighting
  • Table 210: Market overview for graphene in oil and gas
  • Table 211: Market drivers for graphene in oil and gas
  • Table 212: Applications of graphene in the oil and gas market
  • Table 213: Application markets, competing materials, graphene advantages and current market size in oil and gas
  • Table 214: Market summary and revenues for graphene in the oil and gas market
  • Table 215: Potential addressable market for graphene in the oil and gas market
  • Table 216: Demand for graphene in oil and gas, 2017-2030
  • Table 217: Market challenges rating for graphene in the oil and gas market
  • Table 218: Product developers in graphene oil and gas applications
  • Table 219: Market overview for graphene in filtration
  • Table 220: Market drivers for use of graphene in filtration
  • Table 221: Applications and benefits of graphene in filtration and separation
  • Table 222: Market size for graphene in filtration
  • Table 223: Potential addressable market for graphene in the filtration market
  • Table 224: Market opportunity assessment for graphene in the filtration and separation market
  • Table 225: Demand for graphene in filtration, 2017-2030
  • Table 226: Market challenges rating for graphene in the filtration and separation market
  • Table 227: Graphene companies in filtration
  • Table 228: Market overview for graphene in life sciences and biomedicine
  • Table 229: Market drivers for use of graphene in the life sciences and medical market
  • Table 230: Graphene properties relevant to application in biomedicine and healthcare
  • Table 231: Applications and benefits of graphene in life sciences and medical
  • Table 232: Applications in flexible and stretchable health monitors, by advanced materials type and benefits thereof
  • Table 233: Market size for graphene in biomedical and healthcare
  • Table 234: Market opportunity assessment for graphene in biomedical & healthcare markets
  • Table 235: Potential addressable market for graphene in biomedical & healthcare markets
  • Table 236: Demand for graphene in life sciences and biomedical, 2017-2030
  • Table 237: Market challenges in graphene in biomedicine and healthcare
  • Table 238: Market challenges rating for graphene in the biomedical and healthcare market
  • Table 239: Product developers in graphene life sciences and biomedicine
  • Table 240. Nanomaterial lubricant products
  • Table 241: Market overview for graphene in lubricants
  • Table 242: Market drivers for use of graphene in lubricants
  • Table 243: Applications of graphene in the lubricants market
  • Table 244: Applications of carbon nanomaterials in lubricants
  • Table 245: Market size for graphene in lubricants
  • Table 246. Market and applications for SWCNTs in lubricants
  • Table 247: Potential addressable market for graphene in the lubricants market
  • Table 248: Market opportunity assessment for graphene in lubricants
  • Table 249: Demand for graphene in lubricants (tons), 2018-2030
  • Table 250: Market challenges rating for graphene in the lubricants market
  • Table 251: Product developers in graphene lubricants
  • Table 252: Market overview for graphene in sensors
  • Table 253: Market drivers for use of graphene in sensors
  • Table 254: Applications and benefits of graphene in sensors
  • Table 255: Graphene properties relevant to application in sensors
  • Table 256: Comparison of ELISA (enzyme-linked immunosorbent assay) and graphene biosensor
  • Table 257: Market size for graphene in sensors
  • Table 258: Market opportunity assessment for graphene in the sensors market
  • Table 259: Demand for graphene in sensors, 2017-2030
  • Table 260: Market challenges rating for graphene in the sensors market
  • Table 261: Product developers in graphene sensors
  • Table 262: Market overview for graphene in textiles and apparel
  • Table 263: Types of smart textiles
  • Table 264: Smart textile products
  • Table 265: Market drivers for use of graphene in smart textiles and apparel
  • Table 266: Nanocoatings applied in the textiles industry-type of coating, nanomaterials utilized, benefits and applications
  • Table 267: Desirable functional properties for the textiles industry afforded by the use of nanomaterials
  • Table 268: Applications and benefits of graphene in textiles and apparel
  • Table 269: Global smart clothing, interactive fabrics and apparel market
  • Table 270: Potential addressable market for graphene in the smart textiles market
  • Table 271: Market opportunity assessment for graphene in smart textiles and apparel
  • Table 272: Demand for graphene in textiles (tons), 2018-2030
  • Table 273: Market impediments for graphene in textiles
  • Table 274: Market challenges for graphene in textiles and apparel
  • Table 275: Graphene product developers in smart textiles and apparel
  • Table 276: Market overview for graphene in cement
  • Table 277. Market and applications for graphene in cement
  • Table 278. Graphene in asphalt bitumen
  • Table 279. Graphene in ultra-high-performance concrete
  • Table 280: Potential addressable market for graphene in the cement market
  • Table 281: Demand for graphene in cement (tons), 2018-2030
  • Table 282. Graphene market demand in cement
  • Table 283: Graphene product developers in construction
  • Table 284: Market overview for graphene in rubber
  • Table 285: Applications of graphene in rubber and tires
  • Table 286: Market overview for graphene in anti-static plastics
  • Table 287. Market and applications for graphene in tyres
  • Table 288. Market and applications for graphene in rubber technical goods
  • Table 290: Potential addressable market for graphene in the rubber and tires market
  • Table 291: Investment opportunity assessment for graphene in the rubber and tires market
  • Table 292: Demand for graphene in rubber and tires (tons), 2018-2030
  • Table 293: Market challenges for graphene in rubber and tires
  • Table 294: Product developers in rubber and tires
  • Table 295: Graphene producers and types produced
  • Table 296: Graphene producers target market matrix
  • Table 297: Graphene industrial collaborations, licence agreements and target markets
  • Table 298: Graphene product developers and end users target market matrix

Figures

  • Figure 1: Demand for graphene, by market, 2018. Figures based on market graphene producers sell to, including samples
  • Figure 2: Demand for graphene, 2010-2030
  • Figure 3: Vittoria bike tires incorporating graphene
  • Figure 4: Global government funding for graphene in millions USD to 2018
  • Figure 5: Demand for graphene in China, by market, 2018
  • Figure 6: Demand for graphene in China, by market, 2030
  • Figure 7: Demand for graphene in Asia-Pacific, by market, 2018
  • Figure 8: Demand for graphene in Asia-Pacific, by market, 2030
  • Figure 9: Demand for graphene in North America, by market, 2018
  • Figure 10: Demand for graphene in North America, by market, 2030
  • Figure 11: Demand for graphene in Europe, by market, 2018
  • Figure 12: Demand for graphene in Europe, by market, 2030
  • Figure 13: Graphene layer structure schematic
  • Figure 14: Graphite and graphene
  • Figure 15: Graphene and its descendants: top right: graphene; top left: graphite = stacked graphene; bottom right: nanotube=rolled graphene; bottom left: fullerene=wrapped graphene.
  • Figure 16: 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)
  • Figure 17. Graphene quantum dots
  • Figure 18. Schematic of GQD functionalization
  • Figure 19: Schematic of 2-D materials
  • Figure 20: Borophene schematic
  • Figure 21: Black phosphorus structure
  • Figure 22: Black Phosphorus crystal
  • Figure 23: Bottom gated flexible few-layer phosphorene transistors with the hydrophobic dielectric encapsulation
  • Figure 24: Graphitic carbon nitride
  • Figure 25: Structural difference between graphene and C2N-h2D crystal: (a) graphene; (b) C2N-h2D crystal. Credit: Ulsan National Institute of Science and Technology
  • Figure 26: Schematic of germanene
  • Figure 27: Graphdiyne structure
  • Figure 28: Schematic of Graphane crystal
  • Figure 29: Structure of hexagonal boron nitride
  • Figure 30: BN nanosheet textiles application
  • Figure 31: Structure of 2D molybdenum disulfide
  • Figure 32: SEM image of MoS2
  • Figure 33: Atomic force microscopy image of a representative MoS2 thin-film transistor
  • Figure 34: Schematic of the molybdenum disulfide (MoS2) thin-film sensor with the deposited molecules that create additional charge
  • Figure 35: Schematic of a monolayer of rhenium disulfide
  • Figure 36: Silicene structure
  • Figure 37: Monolayer silicene on a silver (111) substrate
  • Figure 38: Silicene transistor
  • Figure 39: Crystal structure for stanene
  • Figure 40: Atomic structure model for the 2D stanene on Bi2Te3(111)
  • Figure 41: Schematic of tungsten diselenide
  • Figure 42: Schematic of Indium Selenide (InSe)
  • Figure 43: Fabrication methods of graphene
  • Figure 44: TEM micrographs of: A) HR-CNFs; B) GANF® HR-CNF, it can be observed its high graphitic structure; C) Unraveled ribbon from the HR-CNF; D) Detail of the ribbon; E) Scheme of the structure of the HR-CNFs; F) Large single graphene oxide sheets derived from GANF
  • Figure 45: Graphene nanoribbons grown on germanium
  • Figure 46: Schematic illustration of the main graphene production techniques
  • Figure 47: Graphene synthesis-CVD technique
  • Figure 48: (a) Graphene powder production line in The Sixth Element Materials Technology Co. Ltd. (b) Graphene film production line of Wuxi Graphene Films Co. Ltd
  • Figure 49: Illustrative procedure of the Scotch-tape based micromechanical cleavage of HOPG
  • Figure 50: Schematic of typical commercialization route for graphene producer
  • Figure 51: Published patent publications for graphene, 2004-2018
  • Figure 52: Roadmap for graphene applications
  • Figure 53: Demand for graphene, 2010-2030
  • Figure 54: Graphene oxide production capacity in tons by region, 2010-2018
  • Figure 55: Graphene nanoplatelets capacity in tons by region, 2010-2018
  • Figure 56: CVD Graphene on Cu Foil
  • Figure 57: 3D Printed tweezers incorporating Carbon Nanotube Filament
  • Figure 58: Graphene Adhesives
  • Figure 59: Potential addressable market for graphene in adhesives
  • Figure 60. Potential market for SWCNT additives in adhesives based on penetration forecasts 2017-2030, tons..... 160 Figure 61: Graphene aircraft
  • Figure 62: Graphene enhanced aircraft cargo container
  • Figure 63: Potential addressable market for graphene in aviation and aerospace
  • Figure 64: Potential addressable market for graphene-enabled applications in aviation and aerospace
  • Figure 65: Graphene-based automotive components
  • Figure 66: Supercar incorporating graphene
  • Figure 67: Antistatic graphene tire
  • Figure 68: Potential addressable market for graphene in the automotive sector
  • Figure 69: Potential addressable market for graphene in the automotive sector
  • Figure 70: Heat transfer coating developed at MIT
  • Figure 71: Water permeation through a brick without (left) and with (right) “graphene paint” coating
  • Figure 72: Four layers of graphene oxide coatings on polycarbonate
  • Figure 73: Global Paints and Coatings Market, share by end user market
  • Figure 74: Graphene-enhanced anti-corrosion aerosols under their Hycote brand
  • Figure 75: Potential addressable market for graphene in the coatings market
  • Figure 76: Potential addressable market for graphene in the coatings market
  • Figure 77: Demand for graphene in coatings (tons), 2018-2030
  • Figure 78. Demand for graphene in coatings 2017-2030
  • Figure 79: Potential addressable market for graphene in composites
  • Figure 80: Potential addressable market for graphene in the composites market
  • Figure 81: Demand for graphene in composites (tons), 2018-2030
  • Figure 82. Potential market for graphene based products in thermosets based on penetration forecasts 2017-2030, tons
  • Figure 83. Potential market for graphene based products in thermoplastics based on penetration forecasts 2017-2030, tons
  • Figure 84. Potential market for graphene based products in metal-matrix composites based on penetration forecasts 2017-2030, tons
  • Figure 85: Moxi flexible film developed for smartphone application
  • Figure 86: Flexible graphene touch screen
  • Figure 87: Galapad Settler smartphone
  • Figure 88: Flexible organic light emitting diode (OLED) using graphene electrode
  • Figure 89: Graphene electrochromic devices. Top left: Exploded-view illustration of the graphene electrochromic device. The device is formed by attaching two graphene-coated PVC substrates face-to-face and filling the gap with a liquid ionic electrolyte
  • Figure 90: Flexible mobile phones with graphene transparent conductive film
  • Figure 91: Foldable graphene E-paper
  • Figure 92: Wearable gas sensor
  • Figure 93: Potential addressable market for graphene in the flexible electronics, wearables, conductive films and displays market
  • Figure 94: Global market for wearable electronics, 2015-2027, by application, billions $
  • Figure 95: Demand for graphene in flexible electronics (tons), 2018-2030
  • Figure 96: Global transparent conductive electrodes market forecast by materials type, 2012-2027, millions $
  • Figure 97: Schematic of the wet roll-to-roll graphene transfer from copper foils to polymeric substrates
  • Figure 98: The transmittance of glass/ITO, glass/ITO/four organic layers, and glass/ITO/four organic layers/4-layer graphene
  • Figure 99: BGT Materials graphene ink product
  • Figure 100: Printed graphene conductive ink
  • Figure 101: Flexible RFID tag
  • Figure 102: Textiles covered in conductive graphene ink
  • Figure 103: Enfucell Printed Battery
  • Figure 104: Graphene printed antenna
  • Figure 105: Printed antennas for aircraft
  • Figure 106: Potential addressable market for graphene in the conductive ink market
  • Figure 107: Conductive inks in the flexible and stretchable electronics market 2017-2027 revenue forecast (million $), by ink types
  • Figure 108: Demand for graphene in conductive ink, 2017-2030
  • Figure 109: Graphene IC in wafer tester
  • Figure 110: A monolayer WS2-based flexible transistor array
  • Figure 111: Schematic cross-section of a graphene based transistor (GBT, left) and a graphene field-effect transistor (GFET, right)
  • Figure 112: Potential addressable market for graphene in transistors and integrated circuits
  • Figure 113: Potential addressable market for graphene in the transistors and integrated circuits market
  • Figure 114: Graphene oxide-based RRAm device on a flexible substrate
  • Figure 115: Layered structure of tantalum oxide, multilayer graphene and platinum used for resistive random access memory (RRAM)
  • Figure 116: A schematic diagram for the mechanism of the resistive switching in metal/GO/Pt
  • Figure 117: Carbon nanotubes NRAM chip
  • Figure 118: Stretchable SWCNT memory and logic devices for wearable electronics
  • Figure 119: Potential addressable market for graphene in the memory devices market
  • Figure 120: Hybrid graphene phototransistors
  • Figure 121: Wearable health monitor incorporating graphene photodetectors
  • Figure 122: Flexible PEN coated with graphene and a QD thin film (20nm) is highly visibly transparent and photosensitive
  • Figure 123: Potential addressable market for graphene in photonics
  • Figure 124: The SkelStart Engine Start Module 2.0 based on the graphene-based SkelCap ultracapacitors
  • Figure 125: Energy harvesting textile
  • Figure 126: H600 concept car
  • Figure 127: Anion concept car
  • Figure 128: Potential addressable market for graphene in the thin film, flexible and printed batteries market
  • Figure 129: Skeleton Technologies ultracapacitor
  • Figure 130: Zapgo supercapacitor phone charger
  • Figure 131: Stretchable graphene supercapacitor
  • Figure 132: Potential addressable market for graphene in supercapacitors
  • Figure 133: Solar cell with nanowires and graphene electrode
  • Figure 134: Schematic illustration of the fabrication concept for textile-based dye-sensitized solar cells (DSSCs) made by sewing textile electrodes on to cloth or paper
  • Figure 135: Potential addressable market for graphene in photovoltaics
  • Figure 136: Potential addressable market for graphene in fuel cells
  • Figure 137: LG OLED flexible lighting panel
  • Figure 138: Flexible OLED incorporated into automotive headlight
  • Figure 139: Potential addressable market for graphene in lighting
  • Figure 140: Schematic of boron doped graphene for application in gas sensors
  • Figure 141: Directa Plus Grafysorber
  • Figure 142: Nanometer-scale pores in single-layer freestanding graphene membrane can effectively filter NaCl salt from water
  • Figure 143: Graphene filtration membrane
  • Figure 144: Degradation of organic dye molecules by graphene hybrid composite photocatalysts
  • Figure 145: Graphene anti-smog mask
  • Figure 146: Potential addressable market for graphene in the filtration market
  • Figure 147: Graphene Frontiers' Six™ chemical sensors consists of a field effect transistor (FET) with a graphene channel. Receptor molecules, such as DNA, are attached directly to the graphene channel
  • Figure 148: Graphene-Oxide based chip prototypes for biopsy-free early cancer diagnosis
  • Figure 149: Connected human body
  • Figure 150: Flexible, lightweight temperature sensor
  • Figure 151: Graphene-based E-skin patch
  • Figure 152: Smart e-skin system comprising health-monitoring sensors, displays, and ultra flexible PLEDs
  • Figure 153: Graphene medical patch
  • Figure 154: TempTraQ wearable wireless thermometer
  • Figure 155: Mimo baby monitor
  • Figure 156: Nanowire skin hydration patch
  • Figure 157: Wearable sweat sensor
  • Figure 158: GraphWear wearable sweat sensor
  • Figure 159: Global medical and healthcare smart textiles and wearables market, 2015-2027, billions $
  • Figure 160: Global medical and healthcare smart textiles and wearables market, 2015-2027, billions $
  • Figure 161: Potential addressable market for graphene-enabled applications in the biomedical and healthcare market
  • Figure 162: Demand for graphene in lubricants (tons), 2018-2030
  • Figure 163. Potential market for SWCNT additives in lubricants based on penetration forecasts 2017-2030, tons
  • Figure 164: GFET sensors
  • Figure 165: First generation point of care diagnostics
  • Figure 166: Graphene Field Effect Transistor Schematic
  • Figure 167: Potential addressable market for graphene in the sensors market
  • Figure 168: Colmar graphene ski jacket
  • Figure 169: Conductive yarns
  • Figure 170: Graphene-enhanced ski garments
  • Figure 171: Inov-8 graphene shoes
  • Figure 172: Global smart clothing, interactive fabrics and apparel market 2013-2030 revenue forecast (million $)
  • Figure 173: Demand for graphene in textiles (tons), 2018-2030
  • Figure 174: Demand for graphene in cement (tons), 2018-2030
  • Figure 175. Potential market for graphene based products in tyres based on penetration forecasts 2017-2030, tons
  • Figure 176. Potential market for graphene based products in rubber technical goods based on penetration forecasts 2017-2030, tons
  • Figure 177: Demand for graphene in rubber and tires (tons), 2018-2030
  • Figure 178: Graphene flake products
  • Figure 179: Prototype of Graphene-integrated UF filter cartridge
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