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The Global Market for Graphene and 2D Materials 2021-2031- Product Image
The Global Market for Graphene and 2D Materials 2021-2031- Product Image

The Global Market for Graphene and 2D Materials 2021-2031

  • ID: 5262105
  • Report
  • February 2021
  • Region: Global
  • 610 Pages
  • Future Markets, Inc

FEATURED COMPANIES

  • Archer Materials
  • Global Graphene Group
  • GrapheneCA
  • HP1 Technologies Ltd
  • SafeLi LLC
  • Talga Resources
  • MORE

The market for graphene has grown hugely in the past decade, with numerous products now on the market and more to come as graphene producers record steadily increasing revenues and OEMs witnessing significant returns in clothing, sportswear, footwear, tires, batteries etc. Graphene is attracting increasing attention from investors, researchers and industrial players due to exceptional mechanical, electronic, and thermal properties. Graphene is available in multi-ton quantities from many producers and has been identified by many industry sectors as a key materials that will drive future product development in flexible electronics, smart textiles, biosensors, drug delivery, water filtration, supercapacitors and more.

The Global Market for Graphene 2021-2031 is the most comprehensive and up-to-date report on graphene currently available, by the world's leading market authority on graphene. Profiling 286 companies, the report provides key information for investors and executives to enable them to understand and take advantage of the opportunities provided by graphene (other 2D materials are also covered).

The Global Market for Graphene 2021-2031 contains:

  • Unique market assessment tools to assess the viability of graphene, by market, and application.
  • Tabular data on current graphene products.
  • Market assessment of other 2D materials.
  • Assessment of graphene by market including applications, key benefits, market megatrends, market drivers for graphene, technology drawbacks, competing materials, potential consumption of graphene to 2031 and main players.
  • Graphical depictions of graphene applications by market.
  • In depth-assessment of graphene producer and distributor pricing in 2020.
  • Global market for graphene in tons, by sector, historical and forecast to 2031. Global graphene market size split by market in 2019 and for each application to 2030.
  • Full list of technology collaborations, strategic partnerships, and M&As in the global graphene market including collaboration dates. 
  • In-depth profiles of 280 graphene producers and application/product developers including products, production capacities, manufacturing methods, collaborations, licensing, customers and target markets. Companies profiled include Directa Plus, Global Graphene Group, ZEN Graphene Solutions, HP1 Technologies Ltd, GrapheneCA, Saint Jean Carbon, SafeLi LLC, Versarien, Talga Resources, Archer Materials, Haydale Graphene, Paragraf, Graphenea and many more.
  • List of ex-graphene producers. 
  • Detailed forecasts for key growth areas, opportunities and demand.
  • Market impact of COVID-19 crisis on the graphene market, by end user industry. 
  • Market overview of industry developments in 2020. 
  • Analysis of 2D materials market including Boron Nitride nanotubes (BNNTs), hexagonal boron-nitride (BNNS), transition metal dichalcogenides (TMDC), Mxenes, Borophene, Phosphorene, Graphitic carbon nitride, Germanene, Graphyne, graphane, Rhenium disulfide (ReS2) and diselenide (ReSe2), silicene, Stanene/tinene, Tungsten diselenide, Antimonene, diamene and indium selenide. 

Additional content from the previous edition includes:

  • Review of market in 2020.
  • Outlook for market in 2021.
  • Expanded graphene quantum dots chapter.
  • SWOT analysis.
  • Industry supply chain analysis. 
  • Assessment of key global players.
  • Analysis of market in China. 
  • Analysis of audio equipment and sporting goods market. 
Note: Product cover images may vary from those shown

FEATURED COMPANIES

  • Archer Materials
  • Global Graphene Group
  • GrapheneCA
  • HP1 Technologies Ltd
  • SafeLi LLC
  • Talga Resources
  • MORE

1 EXECUTIVE SUMMARY 
1.1 Why graphene? 
1.1.1 Exceptional properties 
1.1.2 Commercial opportunities 
1.1.3 Collaboration key? 
1.2 The market in 2019 
1.3 The market in 2020 
1.4 The market in 2021 
1.5 Future global market outlook 
1.6 Graphene producers and production capacities 
1.7 Global graphene demand, 2018-2031, tons 
1.7.1 Market segmentation, historical and forecast to 2031 
1.8 Graphene market by region 
1.8.1 Asia-Pacific 
1.8.1.1 China 
1.8.1.2 Main graphene producers in Asia-Pacific 
1.8.2 North America 
1.8.2.1 Main graphene producers in North America 
1.8.3 Europe 
1.8.3.1 Main graphene producers in Europe 
1.9 List of commercialized graphene products 
1.10 Graphene investments 
1.11 Industrial collaborations and licence agreements 
1.12 Graphene market challenges 
1.13 Market impact from COVID-19 pandemic 
 
2 OVERVIEW OF GRAPHENE 
2.1 History 
2.2 Types of graphene 
2.3 Properties 
 
3 GRAPHENE QUANTUM DOTS 
3.1 Composition 
3.2 Comparison to quantum dots 
3.3 Properties 
3.4 Synthesis 
3.4.1 Top-down method 
3.4.2 Bottom-up method 
3.4.3 Comparison of synthesis methods 
3.5 Applications 
3.6 Markets 
3.6.1 Electronics and photonics 
3.6.2 Energy storage and conversion 
3.6.3 Sensors 
3.6.4 Biomedicine and life sciences 
3.6.5 Anti-counterfeiting 
3.7 Challenges 
3.8 Technology readiness level (TRL) 
3.9 Production of graphene quantum dots 
3.9.1 Current and projected revenues 
3.9.2 Pricing 
 
4 GRAPHENE PRODUCTION 
4.1 Quality 
4.2 Assessment of graphene production methods 
 
5 REGULATIONS 
5.1 Environmental, health and safety regulation 
5.1.1 Europe 
5.1.2 United States 
5.1.3 Asia-Pacific 
5.2 Workplace exposure 
 
6 GRAPHENE PATENTS AND PUBLICATIONS 
 
7 GRAPHENE PRODUCTION 
7.1 Commercial production capacities 
7.2 Graphene oxide and reduced Graphene Oxide production capacities 
7.2.1 By producer 
7.2.2 By region 
7.3 Graphene nanoplatelets production capacities 
7.3.1 By producer 
7.3.2 Production capacity by region 
7.4 CVD graphene film 
7.4.1 By producer 
7.5 Graphene production issues and challenges 
7.5.1 Oversupply 
7.5.2 Quality 
7.5.3 Large-volume markets 
7.5.4 Commoditisation 
7.5.5 Industrial end-user perspective 
 
8 GRAPHENE INDUSTRY SUPPLY CHAIN 
 
9 SWOT ANALYSIS 
 
10 GRAPHENE PRICING 
10.1 Pristine graphene flakes pricing/CVD graphene 
10.2 Few-Layer graphene pricing 
10.3 Graphene nanoplatelets pricing 
10.4 Graphene oxide (GO) and reduced Graphene Oxide (rGO) pricing 
10.5 Graphene quantum dots pricing 
10.6 Multilayer graphene (MLG) pricing 
10.7 Graphene ink 
 
11 MARKETS FOR GRAPHENE 
11.1 GRAPHENE IN 3D PRINTING 
11.1.1 Market overview 
11.1.2 Market prospects 
11.1.3 Market assessment 
11.1.4 Applications map 
11.1.5 Global market in tons, historical and forecast to 2030 
11.1.6 Product developers 
11.2 GRAPHENE IN ADHESIVES 
11.2.1 Market overview 
11.2.2 Market prospects 
11.2.3 Market assessment 
11.2.4 Applications map 
11.2.5 Global market in tons, historical and forecast to 2030 
11.2.6 Product developers 
11.3 GRAPHENE IN AUTOMOTIVE 
11.3.1 Market overview 
11.3.2 Market prospects 
11.3.3 Market assessment 
11.3.4 Applications map 
11.3.5 Global market in tons, historical and forecast to 2030 
11.3.6 Product developers 
11.4 GRAPHENE IN BATTERIES 
11.4.1 Market overview 
11.4.1.1 Battery market megatrends 
11.4.2 Market prospects 
11.4.2.1 Flexible and stretchable batteries 
11.4.3 Market assessment 
11.4.4 Applications Map 
11.4.5 Global market in tons, historical and forecast to 2030 
11.4.6 Product developers 
11.5 GRAPHENE IN COMPOSITES 
11.5.1 Market overview 
11.5.2 Fiber-based polymer composite parts 
11.5.2.1 Market prospects 
11.5.2.2 Market assessment 
11.5.2.3 Applications map 
11.5.3 Metal-matrix composites 
11.5.3.1 Market assessment 
11.5.4 Global market in tons, historical and forecast to 2030 
11.5.5 Product developers 
11.6 GRAPHENE IN CONDUCTIVE INKS 
11.6.1 Market overview 
11.6.2 Market prospects 
11.6.3 Market assessment 
11.6.4 Applications map 
11.6.5 Global market in tons, historical and forecast to 2030 
11.6.6 Product developers 
11.7 GRAPHENE IN CONSTRUCTION MATERIALS 
11.7.1 Market overview 
11.7.2 Market prospects 
11.7.3 Market assessment 
11.7.3.1 Cement 
11.7.3.2 Asphalt bitumen 
11.7.4 Global market in tons, historical and forecast to 2030 
11.7.5 Product developers 
11.8 GRAPHENE IN ELECTRONICS 
11.8.1 WEARABLE ELECTRONICS AND DISPLAYS 
11.8.1.1 Market overview 
11.8.1.2 Market prospects 
11.8.1.3 Market assessment 
11.8.1.4 Global market, historical and forecast to 2030 
11.8.1.5 Product developers 
11.8.2 GRAPHENE IN TRANSISTORS AND INTEGRATED CIRCUITS 
11.8.2.1 Market overview 
11.8.2.2 Market prospects 
11.8.2.3 Market assessment 
11.8.2.4 Applications map 
11.8.2.5 Global market, historical and forecast to 2030 
11.8.2.6 Product developers 
11.8.3 GRAPHENE IN MEMORY DEVICES 
11.8.3.1 Market overview 
11.8.3.2 Market prospects 
11.8.3.3 Market assessment 
11.8.3.4 Global market in tons, historical and forecast to 2030 
11.8.3.5 Product developers 
11.9 GRAPHENE IN FILTRATION 
11.9.1 Market overview 
11.9.2 Market prospects 
11.9.3 Market assessment 
11.9.4 Applications map 
11.9.5 Global market in tons, historical and forecast to 2030 
11.9.6 Product developers 
11.10 GRAPHENE IN FUEL CELLS 
11.10.1 Market overview 
11.10.2 Market prospects 
11.10.3 Market assessment 
11.10.4 Applications map 
11.10.5 Global market in tons, historical and forecast to 2030 
11.10.6 Product developers 
11.11 GRAPHENE IN LIFE SCIENCES AND MEDICINE 
11.11.1 Market overview 
11.11.2 Market prospects 
11.11.2.1 Drug delivery 
11.11.2.2 Imaging and diagnostics 
11.11.2.3 Implants 
11.11.2.4 Medical biosensors 
11.11.2.5 Woundcare 
11.11.2.6 Medical wearables 
11.11.3 Market assessment 
11.11.4 Applications map 
11.11.5 Global market in tons, historical and forecast to 2030 
11.11.6 Product developers 
11.12 GRAPHENE IN LIGHTING 
11.12.1 Market overview 
11.12.2 Market prospects 
11.12.3 Market assessment 
11.12.4 Applications map 
11.12.5 Global market in tons, historical and forecast to 2030 
11.12.6 Product developers 
11.13 GRAPHENE IN LUBRICANTS 
11.13.1 Market overview 
11.13.2 Market prospects 
11.13.3 Market assessment 
11.13.4 Applications map 
11.13.5 Global market in tons, historical and forecast to 2030 
11.13.6 Product developers 
11.14 GRAPHENE IN OIL AND GAS 
11.14.1 Market overview 
11.14.2 Market prospects 
11.14.3 Market assessment 
11.14.4 Applications map 
11.14.5 Global market in tons, historical and forecast to 2030 
11.14.6 Product developers 
11.15 GRAPHENE IN PAINTS AND COATINGS 
11.15.1 Market overview 
11.15.2 Market prospects 
11.15.3 Market assessment 
11.15.4 Applications map 
11.15.5 Global market in tons, historical and forecast to 2030 
11.15.6 Product developers 
11.16 GRAPHENE IN PHOTONICS 
11.16.1 Market overview 
11.16.2 Market prospects 
11.16.3 Market assessment 
11.16.4 Applications map 
11.16.5 Global market in tons, historical and forecast to 2030 
11.16.6 Product developers 
11.17 GRAPHENE IN PHOTOVOLTAICS 
11.17.1 Market overview 
11.17.2 Market prospects 
11.17.3 Market assessment 
11.17.4 Applications map 
11.17.5 Global market in tons, historical and forecast to 2030 
11.17.6 Product developers 
11.18 GRAPHENE IN RUBBER AND TIRES 
11.18.1 Market overview 
11.18.2 Market prospects 
11.18.3 Market assessment 
11.18.4 Applications map 
11.18.5 Global market in tons, historical and forecast to 2030 
11.18.6 Product developers 
11.19 GRAPHENE IN SENSORS 
11.19.1 Market overview 
11.19.2 Market prospects 
11.19.3 Market assessment 
11.19.4 Applications map 
11.19.5 Global market in tons, historical and forecast to 2030 
11.19.6 Product developers 
11.20 GRAPHENE IN SMART TEXTILES AND APPAREL 
11.20.1 Market overview 
11.20.2 Market prospects 
11.20.3 Market assessment 
11.20.4 Applications map 
11.20.5 Global market in tons, historical and forecast to 2030 
11.20.6 Product developers 
11.21 GRAPHENE IN SUPERCAPACITORS 
11.21.1 Market overview 
11.21.2 Market prospects 
11.21.3 Market assessment 
11.21.3.1 Flexible and stretchable supercapacitors 
11.21.4 Applications map 
11.21.5 Global market in tons, historical and forecast to 2030 
11.21.6 Product developers 
11.22 OTHER MARKETS 
11.22.1 Audio equipment 
11.22.2 Sporting goods and apparel 
 
12 GRAPHENE PRODUCER ASSESSMENT 
 
13 GRAPHENE COMPANY PROFILES-PRODUCERS AND PRODUCT DEVELOPERS 
 
14 APPLICATIONS ANALYSIS 
 
15 GRAPHENE EX-PRODUCERS AND PRODUCT DEVELOPERS 
 
16 OTHER 2-D MATERIALS 
16.1 BORON NITRIDE NANOTUBES (BNNT) 
16.1.1 Properties 
16.1.2 Applications 
16.1.3 Production 
16.2 HEXAGONAL BORON-NITRIDE (BNNS) 
16.2.1 Properties 
16.2.2 Applications 
16.2.2.1 Electronics 
16.2.2.2 Fuel cells 
16.2.2.3 Adsorbents 
16.2.2.4 Photodetectors 
16.2.2.5 Textiles 
16.2.2.6 Biomedical 
16.3 TRANSITION METAL DICHALCOGENIDES (TMDCs) 
16.3.1 Properties 
16.3.2 Applications 
16.3.2.1 Electronics 
16.3.2.2 Photovoltaics 
16.3.2.3 Piezoelectrics 
16.3.2.4 Sensors 
16.3.2.5 Filtration 
16.3.2.6 Batteries 
16.3.2.7 Fiber lasers 
16.4 BOROPHENE 
16.4.1 Properties 
16.4.2 Applications 
16.5 PHOSPHORENE 
16.5.1 Properties 
16.5.1.1 Fabrication methods 
16.5.1.2 Challenges for the use of phosphorene in devices 
16.5.2 Applications 
16.5.2.1 Electronics 
16.5.2.2 Batteries 
16.5.2.3 Photodetectors 
16.5.2.4 Sensors 
16.6 GRAPHITIC CARBON NITRIDE (g-C3N4) 
16.6.1 Properties 
16.6.2 Synthesis 
16.6.3 C2N 
16.6.4 Applications 
16.6.4.1 Electronics 
16.6.4.2 Filtration membranes 
16.6.4.3 Photocatalysts 
16.6.4.4 Batteries (LIBs) 
16.6.4.5 Sensors 
16.7 GERMANENE 
16.7.1 Properties 
16.7.2 Applications 
16.7.2.1 Electronics 
16.7.2.2 Batteries 
16.8 GRAPHDIYNE 
16.8.1 Properties 
16.8.2 Applications 
16.8.2.1 Electronics 
16.8.2.2 Batteries 
16.8.2.3 Separation membranes 
16.8.2.4 Water filtration 
16.8.2.5 Photocatalysts 
16.8.2.6 Photovoltaics 
16.9 GRAPHANE 
16.9.1 Properties 
16.9.2 Applications 
16.9.2.1 Electronics 
16.9.2.2 Hydrogen storage 
16.10 RHENIUM DISULFIDE (ReS2) AND DISELENIDE (ReSe2) 
16.10.1 Properties 
16.10.2 Applications 
16.10.2.1 Electronics 
16.11 SILICENE 
16.11.1 Properties 
16.11.2 Applications 
16.11.2.1 Electronics 
16.11.2.2 Photovoltaics 
16.11.2.3 Thermoelectrics 
16.11.2.4 Batteries 
16.11.2.5 Sensors 
16.12 STANENE/TINENE 
16.12.1 Properties 
16.12.2 Applications 
16.12.2.1 Electronics 
16.13 TUNGSTEN DISELENIDE 
16.13.1 Properties 
16.13.2 Applications 
16.13.2.1 Electronics 
16.14 ANTIMONENE 
16.14.1 Properties 
16.14.2 Applications 
16.15 DIAMENE 
16.15.1 Properties 
16.15.2 Applications 
16.16 INDIUM SELENIDE 
16.16.1 Properties 
16.16.2 Applications 
16.16.2.1 Electronics 
16.17 COMPARATIVE ANALYSIS OF GRAPHENE AND OTHER 2D MATERIALS 
 
17 RESEARCH METHODOLOGY 
17.1 Market opportunity analysis 
17.2 Technology Readiness Level (TRL) 
17.3 Properties of nanomaterials 
 
18 REFERENCES 
 
TABLES
Table 1. Main graphene producers by country, annual production capacities, types and main markets they sell into 2020. 
Table 2. Demand for graphene (tons), 2018-2031. 
Table 3. Main graphene producers in North America. 
Table 4. Main graphene producers in Europe. 
Table 5. Products incorporating graphene. 
Table 6. Graphene investments and financial agreements. 
Table 7. Graphene industrial collaborations, licence agreements and target markets. 
Table 8. Graphene market challenges. 
Table 9. Assessment of impact from COVID-19 by end user market. Key. Low, little impact and market will continue to grow. Medium, market impacted to some degree affecting growth prospects over next 1-2 years. High. Market significantly impacted. 
Table 10. Properties of graphene, properties of competing materials, applications thereof. 
Table 11. Comparison of graphene QDs and semiconductor QDs. 
Table 12. Advantages and disadvantages of methods for preparing GQDs. 
Table 13. Applications of graphene quantum dots. 
Table 14. Markets and applications for graphene quantum dots in electronics and photonics. 
Table 15. Markets and applications for graphene quantum dots in energy storage and conversion. 
Table 16. Markets and applications for graphene quantum dots in sensors. 
Table 17. Markets and applications for graphene quantum dots in biomedicine and life sciences. 
Table 18. Markets and applications for graphene quantum dots in electronics. 
Table 19. Market and technology challenges for graphene quantum dots. 
Table 20. Prices for graphene quantum dots. 
Table 21. Assessment of graphene production methods. 
Table 22. Regulations and rulings related to graphene in Europe. 
Table 23. Regulations and rulings related to graphene in North America. 
Table 24. Regulations and rulings related to graphene in Asia-Pacific. 
Table 25. Accumulated number of patent publications for graphene, 2004-2018. 
Table 26. Demand for graphene (tons), 2018-2031. 
Table 27. Graphene oxide production capacity by producer, 2010-2019. 
Table 28. Graphene oxide production capacity in tons by region, 2010-2019. 
Table 29. Graphene nanoplatelets capacity in tons by producer, 2010-2018. 
Table 30. Graphene nanoplatelets capacity in tons by region, 2010-2019. 
Table 31. CVD graphene film capacity by producer, 2010-2018/ 000s m2. 
Table 32. Graphene industry supply chain. 
Table 33. SWOT analysis for graphene. 
Table 34. Types of graphene and typical prices. 
Table 35. Pristine graphene flakes pricing by producer. 
Table 36. Few-layer graphene pricing by producer. 
Table 37. Graphene nanoplatelets pricing by producer. 
Table 38. Graphene oxide and reduced graphene oxide pricing, by producer. 
Table 39. Graphene quantum dots pricing by producer. 
Table 40. Multi-layer graphene pricing by producer. 
Table 41. Graphene ink pricing by producer. 
Table 42. Market overview for graphene in 3D printing. 
Table 43. Scorecard for graphene in 3D printing. 
Table 44. Market and applications for graphene in 3D printing. 
Table 45. Demand for graphene in 3-D printing (tons), 2018-2031. 
Table 46. Product developers in graphene 3D printing. 
Table 47. Market overview for graphene in adhesives. 
Table 48. Scorecard for graphene in adhesives. 
Table 49. Market and applications for graphene in adhesives. 
Table 50. Demand for graphene in adhesives (tons), 2018-2031. 
Table 51. Product developers in graphene adhesives. 
Table 52. Market overview for graphene in automotive. 
Table 53. Scorecard for graphene in automotive. 
Table 54. Market and applications for graphene in automotive. 
Table 55. Demand for graphene in automotive (tons), 2018-2031. 
Table 56. Product developers in the graphene automotive market. 
Table 57. Applications of nanomaterials in batteries. 
Table 58. Market overview for graphene in batteries. 
Table 59. Scorecard for graphene in batteries. 
Table 60. Market drivers for use of nanomaterials in batteries. 
Table 61. Applications of nanomaterials in flexible and stretchable batteries, by materials type and benefits thereof. 
Table 62. Market and applications for graphene in batteries. 
Table 63. Estimated demand for graphene in batteries (tons), 2018-2031. 
Table 64. Product developers in graphene batteries. 
Table 65. Market overview for graphene in composites. 
Table 66. Scorecard for graphene in fiber-based polymer composite parts. 
Table 67. Market and applications for graphene in fiber-based composite parts. 
Table 68. Market and applications for graphene in metal matrix composites. 
Table 69. Global market for graphene in composites 2018-2031, tons. 
Table 70. Product developers in graphene composites. 
Table 71. Market overview for graphene in conductive inks. 
Table 72. Scorecard for graphene in conductive inks. 
Table 73. Market and applications for graphene in conductive inks. 
Table 74. Comparative properties of conductive inks. 
Table 75. Demand for graphene in conductive ink (tons), 2018-2027. 
Table 76. Product developers in graphene conductive inks. 
Table 77. Market overview for graphene in construction. 
Table 78. Scorecard for graphene in construction. 
Table 79. Graphene for cement. 
Table 80. Graphene for asphalt bitumen. 
Table 81. Demand for graphene in construction (tons), 2018-2031. 
Table 82. Graphene product developers in construction. 
Table 83. Market overview for graphene in wearable electronics and displays. 
Table 84. Scorecard for graphene in wearable electronics and displays. 
Table 85. Market and applications for graphene in electronics. 
Table 86. Comparison of ITO replacements. 
Table 87. Demand for graphene in flexible electronics, 2018-2031. 
Table 88. Product developers in graphene-based electronics. 
Table 89. Market overview for graphene in transistors and integrated circuits. 
Table 90. Comparative properties of silicon and graphene transistors. 
Table 91. Scorecard for graphene in transistors and integrated circuits. 
Table 92. Market and applications for graphene in transistors and integrated circuits. 
Table 93. Demand for graphene in transistors and integrated circuits, 2018-2031. 
Table 94. Product developers in graphene transistors and integrated circuits. 
Table 95. Market overview for graphene in memory devices. 
Table 96. Scorecard for graphene in memory devices. 
Table 97. Market and applications for graphene in memory devices. 
Table 98. Demand for graphene in memory devices, 2018-2031. 
Table 99. Product developers in graphene memory devices. 
Table 100. Market overview for graphene in filtration. 
Table 101. Scorecard for graphene in filtration. 
Table 102. Market and applications for graphene in filtration. 
Table 103. Demand for graphene in filtration (tons), 2018-2031. 
Table 104. Graphene companies in filtration. 
Table 105. Market overview for graphene in fuel cells. 
Table 106. Scorecard for graphene in fuel cells. 
Table 107. Market and applications for graphene in fuel cells. 
Table 108. Demand for graphene in fuel cells (tons), 2018-2031. 
Table 109. Product developers in graphene fuel cells. 
Table 110. Market overview for graphene in life sciences and medicine. 
Table 111. Scorecard for graphene in drug delivery. 
Table 112. Scorecard for graphene in imaging and diagnostics. 
Table 113. Scorecard for graphene in medical implants. 
Table 114. Scorecard for graphene in medical biosensors. 
Table 115. Scorecard for graphene in woundcare. 
Table 116. Market and applications for graphene in life sciences and medicine. 
Table 117. Demand for graphene in life sciences and medical (tons), 2018-2031. 
Table 118. Product developers in graphene life sciences and biomedicine. 
Table 119. Market overview for graphene in lighting. 
Table 120. Scorecard for graphene in lighting. 
Table 121. Market and applications for graphene in lighting. 
Table 122. Demand for graphene in lighting, 2018-2031. 
Table 123. Product developers in graphene lighting. 
Table 124. Market overview for graphene in lubricants. 
Table 125. Nanomaterial lubricant products. 
Table 126. Scorecard for graphene in lubricants. 
Table 127. Market and applications for graphene in lubricants. 
Table 128. Demand for graphene in lubricants (tons), 2018-2031. 
Table 129. Product developers in graphene lubricants. 
Table 130. Market overview for graphene in oil and gas. 
Table 131. Scorecard for graphene in oil and gas. 
Table 132. Market and applications for graphene in oil and gas. 
Table 133. Demand for graphene in oil and gas (tons), 2018-2031. 
Table 134. Product developers in graphene oil and gas. 
Table 135. Market overview for graphene in paints and coatings. 
Table 136. Scorecard for graphene in paints and coatings. 
Table 137. Market and applications for graphene in paints and coatings. 
Table 138. Demand for graphene in paints and coatings (tons), 2018-2031. 
Table 139. Product developers in graphene paints and coatings. 
Table 140. Market overview for graphene in photonics. 
Table 141. Scorecard for graphene in photonics. 
Table 142. Market and applications for graphene in photonics. 
Table 143. Demand for graphene in photonics, 2018-2031. 
Table 144. Product developers in graphene photonics. 
Table 145. Market overview for graphene in photovoltaics. 
Table 146. Scorecard for graphene in photovoltaics. 
Table 147. Market and applications for graphene in photovoltaics. 
Table 148. Demand for graphene in photovoltaics (tons), 2018-2031. 
Table 149. Product developers in graphene solar. 
Table 150. Market overview for graphene in rubber and tires. 
Table 151. Scorecard for graphene in rubber and tires. 
Table 152. Market and applications for graphene in rubber and tires. 
Table 153. Demand for graphene in rubber and tires (tons), 2018-2031. 
Table 154. Product developers in rubber and tires. 
Table 155. Market overview for graphene in sensors. 
Table 156. Scorecard for graphene in sensors. 
Table 157. Market and applications for graphene in sensors. 
Table 158. Demand for graphene in sensors (tons), 2018-2031. 
Table 159. Product developers in graphene sensors. 
Table 160. Market overview for graphene in smart textiles and apparel. 
Table 161. Scorecard for graphene in smart textiles and apparel. 
Table 162. Market and applications for graphene in smart textiles and apparel. 
Table 163. Demand for graphene in textiles (tons), 2018-2031. 
Table 164. Graphene product developers in smart textiles and apparel. 
Table 165. Market overview for graphene in supercapacitors. 
Table 166. Scorecard for graphene in supercapacitors. 
Table 167. Comparative properties of graphene supercapacitors and lithium-ion batteries. 
Table 168. Market and applications for graphene in supercapacitors. 
Table 169. Demand for graphene in supercapacitors (tons), 2018-2031. 
Table 170. Product developers in graphene supercapacitors. 
Table 171. Graphene audio equipment producers and products. 
Table 172. Graphene sporting goods producers and products. 
Table 173. Graphene producers and types produced. 
Table 174. Graphene producers target market matrix. 
Table 175. Graphene product developers and end users target market matrix. 
Table 176. Assessment of key global graphene players. 
Table 177. Market opportunity assessment for main graphene applications. 
Table 178. 2D materials types. 
Table 179. Comparative properties of BNNTs and CNTs. 
Table 180. Applications of BNNTs. 
Table 181. Electronic and mechanical properties of monolayer phosphorene, graphene and MoS2. 
Table 182. Comparative analysis of graphene and other 2-D nanomaterials. 
Table 183. Technology Readiness Level (TRL) Examples. 
Table 184. Categorization of nanomaterials. 
 
FIGURES
Figure 1. Demand for graphene, by market, 2019. 
Figure 2. Demand for graphene, by market, 2031. 
Figure 3. Demand for graphene, 2018-2031, tons. 
Figure 4. Global graphene demand by market, 2018-2031 (tons). Low estimate. 
Figure 5. Global graphene demand by market, 2018-2031 (tons). Medium estimate. 
Figure 6. Global graphene demand by market, 2018-2031 (tons). High estimate. 
Figure 7. Demand for graphene in China, by market, 2019. 
Figure 8. Demand for graphene in Asia-Pacific, by market, 2019. 
Figure 9. Main graphene producers in Asia-Pacific. 
Figure 10. Demand for graphene in North America, by market, 2019. 
Figure 11. Demand for graphene in Europe, by market, 2019. 
Figure 12. Graphene layer structure schematic. 
Figure 13. Illustrative procedure of the Scotch-tape based micromechanical cleavage of HOPG. 
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. Green-fluorescing graphene quantum dots. 
Figure 17. 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 18. Graphene quantum dots. 
Figure 19. Top-down and bottom-up methods. 
Figure 20. TRL for graphene quantum dots. 
Figure 21. Revenues for graphene quantum dots 2019-2031, millions USD 
Figure 22. Fabrication methods of graphene. 
Figure 23. 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 24. (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 25. Schematic illustration of the main graphene production methods. 
Figure 26. Published patent publications for graphene, 2004-2018. 
Figure 27. Demand for graphene, 2018-2031, tons. 
Figure 28. Graphene oxide production capacity in tons by region, 2010-2019. 
Figure 29. Graphene nanoplatelets capacity in tons by region, 2010-2019. 
Figure 30. CVD Graphene on Cu Foil. 
Figure 31. Applications of graphene in 3D printing. 
Figure 32. Demand for graphene in 3-D printing (tons), 2018-2031. 
Figure 33. CNCTArch lightweight mounting for digital signalling. 
Figure 34. Applications of graphene in adhesives. 
Figure 35. Demand for graphene in adhesives (tons), 2018-2031. 
Figure 36. Graphene Adhesives. 
Figure 37. Applications of graphene in automotive. 
Figure 38. Demand for graphene in automotive (tons), 2018-2031. 
Figure 39. Supercar incorporating graphene. 
Figure 40. Graphene anti-corrosion primer. 
Figure 41. Graphene-R Brake pads. 
Figure 42. Antistatic graphene tire. 
Figure 43. Graphene engine oil additives. 
Figure 44. Annual cobalt demand for electric vehicle batteries to 2030. 
Figure 45. Annual lithium demand for electric vehicle batteries to 2030. 
Figure 46. Costs of batteries to 2030. 
Figure 47. Applications of graphene in batteries. 
Figure 48. Demand for graphene in batteries (tons), 2018-2031. 
Figure 49. Apollo Traveler graphene-enhanced USB-C / A fast charging power bank. 
Figure 50. 6000mAh Portable graphene batteries. 
Figure 51. Real Graphene Powerbank. 
Figure 52. Graphene Functional Films - UniTran EH/FH. 
Figure 53. Applications of graphene in composites. 
Figure 54. Demand for graphene in composites (tons), 2018-2031. 
Figure 55. Graphene bike. 
Figure 56. Graphene lacrosse equipment. 
Figure 57. Graphene-based suitcase made from recycled plastic. 
Figure 58. Aros Create. 
Figure 59. Grays graphene hockey sticks. 
Figure 60. Applications of graphene in conductive inks. 
Figure 61. Demand for graphene in conductive ink (tons), 2018-2031. 
Figure 62. BGT Materials graphene ink product. 
Figure 63. Printed graphene conductive ink. 
Figure 64. Textiles covered in conductive graphene ink. 
Figure 65. Comparison of nanofillers with supplementary cementitious materials and aggregates in concrete. 
Figure 66. Demand for graphene in construction (tons), 2018-2031. 
Figure 67. Graphene asphalt additives. 
Figure 68. OG (Original Graphene) Concrete Admix Plus. 
Figure 69. Demand for graphene in electronics, 2018-2031. 
Figure 70. Moxi flexible film developed for smartphone application. 
Figure 71. Applications of graphene in transistors and integrated circuits. 
Figure 72. Demand for graphene in transistors and integrated circuits, 2018-2031. 
Figure 73. Graphene IC in wafer tester. 
Figure 74. Schematic cross-section of a graphene based transistor (GBT, left) and a graphene field-effect transistor (GFET, right). 
Figure 75. Demand for graphene in memory devices, 2018-2031. 
Figure 76. Layered structure of tantalum oxide, multilayer graphene and platinum used for resistive random-access memory (RRAM). 
Figure 77. Applications of graphene in filtration. 
Figure 78. Demand for graphene in filtration (tons), 2018-2031. 
Figure 79. Graphene anti-smog mask. 
Figure 80. Graphene filtration membrane. 
Figure 81. Water filer cartridge. 
Figure 82. Applications of graphene in fuel cells. 
Figure 83. Demand for graphene in fuel cells (tons), 2018-2031. 
Figure 84. Graphene-based E-skin patch. 
Figure 85. Flexible and transparent bracelet that uses graphene to measure heart rate, respiration rate etc. 
Figure 86. Applications of graphene in life sciences and medicine 
Figure 87. Demand for graphene in life sciences and medical (tons), 2018-2031. 
Figure 88. Graphene medical biosensors for wound healing. 
Figure 89. 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 90. GraphWear wearable sweat sensor. 
Figure 91. Applications of graphene in lighting. 
Figure 92. Demand for graphene in lighting, 2018-2031. 
Figure 93. Graphene LED bulbs. 
Figure 94. Applications of graphene in lubricants. 
Figure 95. Demand for graphene in lubricants (tons), 2018-2031. 
Figure 96. Tricolit spray coating. 
Figure 97. Graphenoil products. 
Figure 98. Applications of graphene in oil and gas. 
Figure 99. Demand for graphene in oil and gas (tons), 2018-2031. 
Figure 100. Directa Plus Grafysorber. 
Figure 101. Demand for graphene in paints and coatings (tons), 2018-2031. 
Figure 102. Cryorig CPU cooling system with graphene coating. 
Figure 103. Four layers of graphene oxide coatings on polycarbonate. 
Figure 104. 23303 ZINCTON GNC graphene paint. 
Figure 105. Graphene-enhanced anti-corrosion aerosols under their Hycote brand. 
Figure 106. Scania Truck head lamp brackets ACT chamber 6 weeks, equivalent to 3y field use. Piece treated with GO to the left together with different non-GO coatings. 
Figure 107. Schematic of graphene heat film. 
Figure 108. Applications of graphene in photonics. 
Figure 109. Demand for graphene in photonics, 2018-2031. 
Figure 110. All-graphene optical communication link demonstrator operating at a data rate of 25 Gb/s per channel. 
Figure 111. Applications of graphene in photovoltaics. 
Figure 112. Demand for graphene in photovoltaics (tons), 2018-2031. 
Figure 113. Graphene coated glass. 
Figure 114. Applications of graphene in rubber and tires. 
Figure 115. Demand for graphene in rubber and tires (tons), 2018-2031. 
Figure 116. Eagle F1 graphene tire. 
Figure 117. Graphene floor mats. 
Figure 118. Vittoria Corsa G+ tire. 
Figure 119. Graphene-based sensors for health monitoring. 
Figure 120. Applications of graphene in sensors. 
Figure 121. Demand for graphene in sensors (tons), 2018-2031. 
Figure 122. AGILE R100 system. 
Figure 123. Graphene fully packaged linear array detector. 
Figure 124. GFET sensors. 
Figure 125. Graphene is used to increase sensitivity to middle-infrared light. 
Figure 126. Applications of graphene in smart textiles and apparel. 
Figure 127. Demand for graphene in textiles (tons), 2018-2031. 
Figure 128. Colmar graphene ski jacket. 
Figure 129. Graphene dress. The dress changes colour in sync with the wearer’s breathing. 
Figure 130. G+ Graphene Aero Jersey. 
Figure 131. Inov-8 graphene shoes. 
Figure 132. Graphene Functional Membranes - UniTran GM. 
Figure 133. Graphene jacket. 
Figure 134. Applications of graphene in supercapacitors. 
Figure 135. Demand for graphene in supercapacitors (tons), 2018-2031. 
Figure 136. Skeleton Technologies supercapacitor. 
Figure 137. Zapgo supercapacitor phone charger. 
Figure 138. Graphene heating films. 
Figure 139. Graphene flake products. 
Figure 140. AIKA Black-T. 
Figure 141. Printed graphene biosensors. 
Figure 142. Brain Scientific electrode schematic. 
Figure 143. Graphene battery schematic. 
Figure 144. Dotz Nano GQD products. 
Figure 145. InP/ZnS, perovskite quantum dots and silicon resin composite under UV illumination. 
Figure 146. Sensor surface. 
Figure 147. BioStamp nPoint. 
Figure 148. MEIJO eDIPS product. 
Figure 149. Nanotech Energy battery. 
Figure 150. Hybrid battery powered electrical motorbike concept. 
Figure 151. NAWAStitch integrated into carbon fiber composite. 
Figure 152. Schematic illustration of three-chamber system for SWCNH production. 
Figure 153. TEM images of carbon nanobrush. 
Figure 154. Test performance after 6 weeks ACT II according to Scania STD4445. 
Figure 155. Quantag GQDs and sensor. 
Figure 156. Talcoat graphene mixed with paint. 
Figure 157. T-FORCE CARDEA ZERO. 
Figure 158. Prototype of Graphene-integrated UF filter cartridge. 
Figure 159. Schematic of 2-D materials. 
Figure 160. Schematic of Boron Nitride nanotubes (BNNTs). Alternating B and N atoms are shown in blue and red. 
Figure 161. Structure of hexagonal boron nitride. 
Figure 162. BN nanosheet textiles application. 
Figure 163. Structure of 2D molybdenum disulfide. 
Figure 164. SEM image of MoS2. 
Figure 165. Atomic force microscopy image of a representative MoS2 thin-film transistor. 
Figure 166. Schematic of the molybdenum disulfide (MoS2) thin-film sensor with the deposited molecules that create additional charge. 
Figure 167. Borophene schematic. 
Figure 168. Black phosphorus structure. 
Figure 169. Black Phosphorus crystal. 
Figure 170. Bottom gated flexible few-layer phosphorene transistors with the hydrophobic dielectric encapsulation. 
Figure 171. Graphitic carbon nitride. 
Figure 172. Structural difference between graphene and C2N-h2D crystal. (a) graphene; (b) C2N-h2D crystal. Credit. Ulsan National Institute of Science and Technology. 
Figure 173. Schematic of germanene. 
Figure 174. Graphdiyne structure. 
Figure 175. Schematic of Graphane crystal. 
Figure 176. Schematic of a monolayer of rhenium disulfide. 
Figure 177. Silicene structure. 
Figure 178. Monolayer silicene on a silver (111) substrate. 
Figure 179. Silicene transistor. 
Figure 180. Crystal structure for stanene. 
Figure 181. Atomic structure model for the 2D stanene on Bi2Te3(111). 
Figure 182. Schematic of tungsten diselenide. 
Figure 183. Schematic of Indium Selenide (InSe). 

Note: Product cover images may vary from those shown
  • Archer Materials
  • Directa Plus
  • Global Graphene Group
  • Graphenea
  • GrapheneCA
  • Haydale Graphene
  • HP1 Technologies Ltd
  • Paragraf
  • SafeLi LLC
  • Saint Jean Carbon
  • Talga Resources
  • Versarien
  • ZEN Graphene Solutions
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