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The Global Market for Carbon Nanotubes to 2033

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    Report

  • 446 Pages
  • December 2022
  • Region: Global
  • Future Markets, Inc
  • ID: 5184536
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The global carbon nanotubes (CNT) market has experienced renewed growth recently, driven by demand for conductive materials for lithium-ion batteries for electric vehicles and other energy storage applications, with many producers greatly increasing production capacities. 

Multi-walled carbon nanotube (MWCNT) powders, arrays, sheets, flakes, films and yarns have found applications in consumer electronics, power cables, ESD resins, batteries, polymer composites, coatings, aerospace, sensors, heaters, filters and biomedicine. Large-scale industrial production of single-walled carbon nanotubes (SWCNTs) has been initiated, promising new market opportunities in rubber, coatings, transparent conductive films, transistors, sensors and memory devices. Demand for CNTs will increase to >50,000 t.p.a. in the next few years. 

Report contents include:

  • In-depth analysis of global carbon nanotubes landscape including materials, production, producers and market demand. 
  • Global production capacities for MWCNTS and SWCNTs, historical and forecast to 2033.
  • Industry activity and product news 2020-2022. 
  • Analysis of other carbon nanotube-related materials including Double-walled carbon nanotubes, Vertically aligned CNTs (VACNTs), Few-walled carbon nanotubes (FWNTs), Carbon nanohorns (CNH), Boron Nitride nanotubes (BNNTs) and carbon nanofibers. 
  • Analysis of carbon capture production from carbon capture. 
  • Market analysis of carbon nanotubes in batteries, supercapacitors, fuel cells, 3D printing, rubber, automotive and aerospace composites, packaging, electronics, adhesives, thermal management, construction materials, filters, biomedicine, lubricants, oil & gas, paints & coatings, solar cells, sensors, rubber, textiles and cables. 
  • Analysis of competitive landscape against other additives (e.g. carbon fiber, carbon black, graphene etc.)
  • Analysis of synthesis methods. Analysis of carbon nanotubes synthesis from carbon capture, biomass and recycled materials.
  • Profiles of more than 150 companies. Companies profiled include Canatu, Carbon Corp, C12 Quantum Electronics, LG Chem, MECHnano, Capital Power Corporation, Somalytics, Huntsman Corporation, Li-S Energy Ltd., NEO Battery Materials, Raymor, NovationSi, Zeon Corporation, Eden Innovations Ltd, Cabot Corporation, Carbice Corporation, NAWA Technologies, SkyNano Technologies, OCSiAl, SmartNanotubes TechnologiesVerdox etc. 


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Table of Contents

1 EXECUTIVE SUMMARY
1.1 The global market for carbon nanotubes in 2022
1.1.1 Demand for Multi-walled carbon nanotubes (MWCNTs) increasing
1.1.2 Single-walled carbon nanotubes (SWCNTs) gaining market traction
1.2 Exceptional properties
1.3 Market outlook 2022
1.4 Future outlook
1.5 Commercial CNT-based products
1.6 MWCNTs
1.6.1 Applications
1.6.2 Key players
1.6.3 Production capacities in 2022
1.6.4 Market demand, metric tons (MT)
1.7 SWCNTs
1.7.1 Applications
1.7.2 Global SWCNT market consumption
1.7.3 Production capacities in 2022
1.8 Carbon nanotubes market challenges

2 OVERVIEW OF CARBON NANOTUBES
2.1 Properties
2.2 Comparative properties of CNTs
2.3 Carbon nanotube materials
2.3.1 Multi-walled nanotubes (MWCNT)
2.3.1.1 Properties
2.3.1.2 Applications
2.3.2 Single-wall carbon nanotubes (SWCNT)
2.3.2.1 Properties
2.3.2.2 Applications
2.3.2.3 Comparison between MWCNTs and SWCNTs
2.3.3 Double-walled carbon nanotubes (DWNTs)
2.3.3.1 Properties
2.3.3.2 Applications
2.3.4 Vertically aligned CNTs (VACNTs)
2.3.4.1 Properties
2.3.4.2 Synthesis of VACNTs
2.3.4.3 Applications
2.3.5 Few-walled carbon nanotubes (FWNTs)
2.3.5.1 Properties
2.3.5.2 Applications
2.3.6 Carbon Nanohorns (CNHs)
2.3.6.1 Properties
2.3.6.2 Applications
2.3.7 Carbon Onions
2.3.7.1 Properties
2.3.7.2 Applications
2.3.8 Boron Nitride nanotubes (BNNTs)
2.3.8.1 Properties
2.3.8.2 Applications
2.4 Intermediate products
2.4.1 CNT yarns
2.4.2 CNT films

3 CARBON NANOTUBE SYNTHESIS AND PRODUCTION
3.1 Comparative analysis of CNT synthesis methods
3.2 Arc discharge synthesis
3.3 Chemical Vapor Deposition (CVD)
3.3.1 Thermal CVD
3.3.2 Plasma enhanced chemical vapor deposition (PECVD)
3.4 High-pressure carbon monoxide synthesis
3.4.1 High Pressure CO (HiPco)
3.4.2 CoMoCAT
3.5 Flame synthesis
3.6 Laser ablation synthesis
3.7 Vertically aligned nanotubes production
3.8 Silane solution method
3.9 By-product from carbon capture
3.10 Advantages and disadvantages of CNT synthesis methods

4 CARBON NANOTUBES PATENTS
5 CARBON NANOTUBES PRICING
5.1 MWCNTs
5.2 SWCNTs

6 CARBON NANOTUBES VALUE CHAIN
7 MARKETS FOR CARBON NANOTUBES
7.1 ENERGY STORAGE: BATTERIES
7.1.1 Market overview
7.1.2 Applications
7.1.2.1 CNTs in Lithium-sulfur (Li-S) batteries
7.1.2.2 CNTs in Nanomaterials in Sodium-ion batteries
7.1.2.3 CNTs in Nanomaterials in Lithium-air batteries
7.1.2.4 CNTs in Flexible and stretchable batteries in electronics
7.1.2.5 CNTs in Flexible and stretchable LIBs
7.1.3 CNTs in Flexible and stretchable supercapacitors
7.1.3.1 Materials
7.1.4 Market prospects
7.1.5 Market assessment
7.1.6 Global market in tons, historical and forecast to 2032
7.1.7 Product developers
7.2 ENERGY STORAGE: SUPERCAPACITORS
7.2.1 Market overview
7.2.2 Applications
7.2.3 Market prospects
7.2.4 Market assessment
7.2.5 Global market in tons, historical and forecast to 2032
7.2.6 Product developers
7.3 POLYMER ADDITIVES AND ELASTOMERS
7.3.1 Market overview
7.3.2 Fiber-based polymer composite parts
7.3.2.1 Market prospects
7.3.2.2 Applications
7.3.2.3 Market assessment
7.3.3 Metal-matrix composites
7.3.3.1 Market assessment
7.3.4 Global market in tons, historical and forecast to 2032
7.3.5 Product developers
7.4 3D PRINTING
7.4.1 Market overview
7.4.2 Applications
7.4.3 Market assessment
7.4.4 Global market in tons, historical and forecast to 2032
7.4.5 Product developers
7.5 ADHESIVES
7.5.1 Market overview
7.5.2 Applications
7.5.3 Market prospects
7.5.4 Market assessment
7.5.5 Global market in tons, historical and forecast to 2032
7.5.6 Product developers
7.6 AEROSPACE
7.6.1 Market overview
7.6.2 Applications
7.6.3 Market prospects
7.6.4 Market assessment
7.6.5 Global market in tons, historical and forecast to 2032
7.6.6 Product developers
7.7 ELECTRONICS
7.7.1 WEARABLE ELECTRONICS AND DISPLAYS
7.7.1.1 Market overview
7.7.1.2 Market prospects
7.7.1.3 Applications
7.7.1.4 Market assessment
7.7.1.5 Global market, historical and forecast to 2032
7.7.1.6 Product developers
7.7.2 TRANSISTORS AND INTEGRATED CIRCUITS
7.7.2.1 Market overview
7.7.2.2 Applications
7.7.2.3 Market prospects
7.7.2.4 Market assessment
7.7.2.5 Global market, historical and forecast to 2032
7.7.2.6 Product developers
7.7.3 MEMORY DEVICES
7.7.3.1 Market overview
7.7.3.2 Market prospects
7.7.3.3 Market assessment
7.7.3.4 Global market in tons, historical and forecast to 2032
7.7.3.5 Product developers
7.8 RUBBER AND TIRES
7.8.1 Market overview
7.8.2 Applications
7.8.3 Market prospects
7.8.4 Market assessment
7.8.5 Global market in tons, historical and forecast to 2032
7.8.6 Product developers
7.9 AUTOMOTIVE
7.9.1 Market overview
7.9.2 Applications
7.9.3 Market prospects
7.9.4 Market assessment
7.9.5 Global market in tons, historical and forecast to 2032
7.9.6 Product developers
7.10 CONDUCTIVE INKS
7.10.1 Market overview
7.10.2 Applications
7.10.3 Market prospects
7.10.4 Market assessment
7.10.5 Global market in tons, historical and forecast to 2032
7.10.6 Product developers
7.11 CONSTRUCTION
7.11.1 Market overview
7.11.2 Market prospects
7.11.3 Market assessment
7.11.3.1 Cement
7.11.3.2 Asphalt bitumen
7.11.4 Global market in tons, historical and forecast to 2032
7.11.5 Product developers
7.12 FILTRATION
7.12.1 Market overview
7.12.2 Applications
7.12.3 Market prospects
7.12.4 Market assessment
7.12.5 Global market in tons, historical and forecast to 2032
7.12.6 Product developers
7.13 FUEL CELLS
7.13.1 Market overview
7.13.2 Applications
7.13.3 Market prospects
7.13.4 Market assessment
7.13.5 Global market in tons, historical and forecast to 2032
7.13.6 Product developers
7.14 LIFE SCIENCES AND MEDICINE
7.14.1 Market overview
7.14.2 Applications
7.14.3 Market prospects
7.14.3.1 Drug delivery
7.14.3.2 Imaging and diagnostics
7.14.3.3 Implants
7.14.3.4 Medical biosensors
7.14.3.5 Woundcare
7.14.4 Market assessment
7.14.5 Global market in tons, historical and forecast to 2032
7.14.6 Product developers
7.15 LUBRICANTS
7.15.1 Market overview
7.15.2 Applications
7.15.3 Market prospects
7.15.4 Market assessment
7.15.5 Global market in tons, historical and forecast to 2032
7.15.6 Product developers
7.16 OIL AND GAS
7.16.1 Market overview
7.16.2 Applications
7.16.3 Market prospects
7.16.4 Market assessment
7.16.5 Global market in tons, historical and forecast to 2032
7.16.6 Product developers
7.17 PAINTS AND COATINGS
7.17.1 Market overview
7.17.2 Applications
7.17.3 Market prospects
7.17.4 Market assessment
7.17.5 Global market in tons, historical and forecast to 2032
7.17.6 Product developers
7.18 PHOTOVOLTAICS
7.18.1 Market overview
7.18.2 Market prospects
7.18.3 Market assessment
7.18.4 Global market in tons, historical and forecast to 2032
7.18.5 Product developers
7.19 SENSORS
7.19.1 Market overview
7.19.2 Applications
7.19.3 Market prospects
7.19.4 Market assessment
7.19.5 Global market in tons, historical and forecast to 2032
7.19.6 Product developers
7.20 SMART TEXTILES, ELECTRONIC TEXTILES AND APPAREL
7.20.1 Market overview
7.20.2 Applications
7.20.3 Market prospects
7.20.4 Market assessment
7.20.5 Global market in tons, historical and forecast to 2032
7.20.6 Product developers
7.21 THERMAL INTERFACE MATERIALS
7.21.1 Market overview
7.21.2 Product developers
7.22 POWER CABLES
7.22.1 Market overview
7.22.2 Product developers

8 COLLABORATIONS AND COMMERCIAL AGREEMENTS
8.1 Supply and licensing

9 COMPANY PROFILES: MULTI-WALLED CARBON NANOTUBES (132 company profiles)10 COMPANY PROFILES: SINGLE-WALLED CARBON NANOTUBES (16 company profiles)11 COMPANY PROFILES: OTHER TYPES (Boron Nitride nanotubes, double-walled nanotubes etc.) (6 companies)12 RESEARCH METHODOLOGY13 REFERENCES
Tables
Table 1. Market summary for carbon nanotubes-Selling grade particle diameter, usage, advantages, average price/ton, high volume applications, low volume applications and novel applications
Table 2. Typical properties of SWCNT and MWCNT
Table 3. Applications of MWCNTs
Table 4. Annual production capacity of the key MWCNT producers in 2021 (MT)
Table 5. Demand for MWCNT by region in 2020, 2031
Table 6: Markets, benefits and applications of Single-Walled Carbon Nanotubes
Table 7. SWCNT market demand forecast (metric tons), 2018-2032
Table 8. Annual production capacity of SWCNT producers in 2021 (KG)
Table 9. Carbon nanotubes market challenges
Table 10. Properties of carbon nanotubes
Table 11. Properties of CNTs and comparable materials
Table 12. Markets, benefits and applications of Single-Walled Carbon Nanotubes
Table 13. Comparison between single-walled carbon nanotubes and multi-walled carbon nanotubes
Table 14. Comparative properties of BNNTs and CNTs
Table 15. Applications of BNNTs
Table 16. Comparison of well-established approaches for CNT synthesis
Table 17. SWCNT synthesis methods
Table 18. Comparative analysis of CNT synthesis methods
Table 19. Advantages and disadvantages of CNT synthesis methods
Table 20. MWCNTs and BNNTs pricing, by producer
Table 21. SWCNTs pricing
Table 22. Market overview for carbon nanotubes in batteries
Table 23. Applications of carbon nanotubes in batteries
Table 24. Applications in sodium-ion batteries, by nanomaterials type and benefits thereof
Table 25. Applications in lithium-air batteries, by nanomaterials type and benefits thereof
Table 26. Applications in flexible and stretchable supercapacitors, by advanced materials type and benefits thereof
Table 27. Scorecard for carbon nanotubes in batteries
Table 28. Market and applications for carbon nanotubes in batteries
Table 29. Estimated demand for carbon nanotubes in batteries (tons), 2018-2032
Table 30. Product developers in carbon nanotubes for batteries
Table 31. Market overview for carbon nanotubes in supercapacitors
Table 32. Applications of carbon nanotubes in supercapacitors
Table 33. Scorecard for carbon nanotubes in supercapacitors
Table 34. Market and applications for carbon nanotubes in supercapacitors
Table 35. Demand for carbon nanotubes in supercapacitors (tons), 2018-2032
Table 36. Product developers in carbon nanotubes for supercapacitors
Table 37. Market overview for carbon nanotubes in polymer additives & elastomers
Table 38. Scorecard for carbon nanotubes in fiber-based polymer composite additives
Table 39. Applications of carbon nanotubes in fiber-based polymer composite additives
Table 40. Market and applications for carbon nanotubes in fiber-based composite additives
Table 41. Market and applications for carbon nanotubes in metal matrix composite additives
Table 42. Global market for carbon nanotubes in polymer additives 2018-2030, tons
Table 43. Product developers in carbon nanotubes in polymer additives and elastomers
Table 44. Market overview for carbon nanotubes in 3D printing
Table 45. Applications of carbon nanotubes in 3D printing
Table 46. Market and applications for carbon nanotubesin 3D printing
Table 47. Demand for carbon nanotubes in 3-D printing (tons), 2018-2032
Table 48. Product developers in carbon nanotubes in 3D printing
Table 49. Market overview for carbon nanotubes in adhesives
Table 50. Applications of carbon nanotubes in adhesives
Table 51. Scorecard for carbon nanotubes in adhesives
Table 52. Market and applications for carbon nanotubes in adhesives
Table 53. Demand for carbon nanotubes in adhesives (tons), 2018-2032
Table 54. Product developers in carbon nanotubes for adhesives
Table 55. Market overview for carbon nanotubes in aerospace
Table 56. Applications of carbon nanomaterials in aerospace
Table 57. Scorecard for carbon nanotubes in aerospace
Table 58. Market and applications for carbon nanotubes in aerospace
Table 59. Demand for carbon nanotubes in aerospace (tons), 2018-2032
Table 60. Product developers in carbon nanotubes for aerospace
Table 61. Market overview for carbon nanotubes in wearable electronics and displays
Table 62. Scorecard for carbon nanotubes in wearable electronics and displays
Table 63. Applications of carbon nanotubes in wearable electronics and displays
Table 64. Market and applications for carbon nanotubes in wearable electronics and displays
Table 65. Comparison of ITO replacements
Table 66. Demand for carbon nanotubes in wearable electronics and displays, 2018-2032
Table 67. Product developers in carbon nanotubes for electronics
Table 68. Market overview for carbon nanotubes in transistors and integrated circuits
Table 69. Applications of carbon nanotubes in transistors and integrated circuits
Table 70. Scorecard for carbon nanotubes in transistors and integrated circuits
Table 71. Market and applications for carbon nanotubes in transistors and integrated circuits
Table 72. Demand for carbon nanotubes in transistors and integrated circuits, 2018-2032
Table 73. Product developers in carbon nanotubes in transistors and integrated circuits
Table 74. Market overview for carbon nanotubes in memory devices
Table 75. Scorecard for carbon nanotubes in memory devices
Table 76. Market and applications for carbon nanotubes in memory devices
Table 77. Demand for carbon nanotubes in memory devices, 2018-2032
Table 78. Product developers in carbon nanotubes for memory devices
Table 79. Market overview for carbon nanotubes in rubber and tires
Table 80. Applications of carbon nanomaterials in rubber and tires
Table 81. Scorecard for carbon nanotubes in rubber and tires
Table 82. Market and applications for carbon nanotubes in rubber and tires
Table 83. Demand for carbon nanotubes in rubber and tires (tons), 2018-2032
Table 84. Product developers in carbon nanotubes in rubber and tires
Table 85. Market overview for carbon nanotubes in automotive
Table 86. Applications of carbon nanotubes in automotive
Table 87. Scorecard for carbon nanotubes in automotive
Table 88. Market and applications for carbon nanotubes in automotive
Table 89. Demand for carbon nanotubes in automotive (tons), 2018-2032
Table 90. Product developers in carbon nanotubes in the automotive market
Table 91. Market overview for carbon nanotubes in conductive inks
Table 92. Applications of carbon nanomaterials in conductive ink
Table 93. Scorecard for carbon nanotubes in conductive inks
Table 94. Market and applications for carbon nanotubes in conductive inks
Table 95. Comparative properties of conductive inks
Table 96. Demand for carbon nanotubes in conductive ink (tons), 2018-2027
Table 97. Product developers in carbon nanotubes for conductive inks
Table 98. Market overview for carbon nanotubes in construction
Table 99. Scorecard for carbon nanotubes in construction
Table 100. Carbon nanotubes for cement
Table 101. Carbon nanotubes for asphalt bitumen
Table 102. Demand for carbon nanotubes in construction (tons), 2018-2032
Table 103. Carbon nanotubes product developers in construction
Table 104. Comparison of CNT membranes with other membrane technologies
Table 105. Market overview for carbon nanotubes in filtration
Table 106. Applications of carbon nanotubes in filtration
Table 107. Scorecard for carbon nanotubes in filtration
Table 108. Market and applications for carbon nanotubes in filtration
Table 109. Demand for carbon nanotubes in filtration (tons), 2018-2032
Table 110. Carbon nanotubes companies in filtration
Table 111. Electrical conductivity of different catalyst supports compared to carbon nanotubes
Table 112. Market overview for carbon nanotubes in fuel cells
Table 113. Applications of carbon nanotubes in fuel cells
Table 114. Scorecard for carbon nanotubes in fuel cells
Table 115. Market and applications for carbon nanotubes in fuel cells
Table 116. Demand for carbon nanotubes in fuel cells (tons), 2018-2032
Table 117. Product developers in carbon nanotubes for fuel cells
Table 118. Market overview for carbon nanotubes in life sciences and medicine
Table 119. Applications of carbon nanotubes in life sciences and biomedicine
Table 120. Scorecard for carbon nanotubes in drug delivery
Table 121. Scorecard for carbon nanotubes in imaging and diagnostics
Table 122. Scorecard for carbon nanotubes in medical implants
Table 123. Scorecard for carbon nanotubes in medical biosensors
Table 124. Scorecard for carbon nanotubes in woundcare
Table 125. Market and applications for carbon nanotubes in life sciences and medicine
Table 126. Demand for carbon nanotubes in life sciences and medical (tons), 2018-2032
Table 127. Product developers in carbon nanotubes for life sciences and biomedicine
Table 128. Market overview for carbon nanotubes in lubricants
Table 129. Nanomaterial lubricant products
Table 130. Applications of carbon nanotubes in lubricants
Table 131. Scorecard for carbon nanotubes in lubricants
Table 132. Market and applications for carbon nanotubes in lubricants
Table 133. Demand for carbon nanotubes in lubricants (tons), 2018-2032
Table 134. Product developers in carbon nanotubes for lubricants
Table 135. Market overview for carbon nanotubes in oil and gas
Table 136. Applications of carbon nanotubes in oil and gas
Table 137. Scorecard for carbon nanotubes in oil and gas
Table 138. Market and applications for carbon nanotubes in oil and gas
Table 139. Demand for carbon nanotubes in oil and gas (tons), 2018-2032
Table 140. Product developers in carbon nanotubes for oil and gas
Table 141. Markets for carbon nanotube coatings
Table 142. Market overview for carbon nanotubes in paints and coatings
Table 143. Applications of carbon nanotubes in paints and coatings
Table 144. Scorecard for carbon nanotubes in paints and coatings
Table 145. Market and applications for carbon nanotubes in paints and coatings
Table 146. Demand for carbon nanotubes in paints and coatings (tons), 2018-2032
Table 147. Product developers in carbon nanotubes for paints and coatings
Table 148. Market overview for carbon nanotubes in photovoltaics
Table 149. Scorecard for carbon nanotubes in photovoltaics
Table 150. Market and applications for carbon nanotubes in photovoltaics
Table 151. Demand for carbon nanotubes in photovoltaics (tons), 2018-2032
Table 152. Product developers in carbon nanotubes for solar
Table 153. Market overview for carbon nanotubes in sensors
Table 154. Applications of carbon nanotubes in sensors
Table 155. Scorecard for carbon nanotubes in sensors
Table 156. Market and applications for carbon nanotubes in sensors
Table 157. Demand for carbon nanotubes in sensors (tons), 2018-2032
Table 158. Product developers in carbon nanotubes for sensors
Table 159. Desirable functional properties for the textiles industry afforded by the use of nanomaterials
Table 160. Market overview for carbon nanotubes in smart textiles and apparel
Table 161. Applications of carbon nanotubes in smart textiles and apparel
Table 162. Scorecard for carbon nanotubes in smart textiles and apparel
Table 163. Market and applications for carbon nanotubes in smart textiles and apparel
Table 164. Demand for carbon nanotubes in textiles (tons), 2018-2032
Table 165. Carbon nanotubes product developers in smart textiles and apparel
Table 166. Market and applications for carbon nanotubes in thermal interface materials
Table 167. Carbon nanotubes product developers in thermal interface materials
Table 168. Market and applications for carbon nanotubes in power cables
Table 169. Carbon nanotubes product developers in power cables
Table 170. CNT producers and companies they supply/licence to
Table 171. Properties of carbon nanotube paper
Table 172. Chasm SWCNT products
Table 173. Thomas Swan SWCNT production
Table 174. Ex-producers of SWCNTs
Table 175. SWCNTs distributors

Figures
Figure 1. Market demand for carbon nanotubes by market, 2018-2032 (tons)
Figure 2. Demand for MWCNT by application in 2021
Figure 3. Demand for MWCNT by application in 2021
Figure 4. Demand for MWCNT by region in 2021
Figure 5. SWCNT market demand forecast (metric tons), 2018-2032
Figure 6. Schematic of single-walled carbon nanotube
Figure 7. TIM sheet developed by Zeon Corporation
Figure 8. Double-walled carbon nanotube bundle cross-section micrograph and model
Figure 9. Schematic of a vertically aligned carbon nanotube (VACNT) membrane used for water treatment
Figure 10. TEM image of FWNTs
Figure 11. Schematic representation of carbon nanohorns
Figure 12. TEM image of carbon onion
Figure 13. Schematic of Boron Nitride nanotubes (BNNTs). Alternating B and N atoms are shown in blue and red
Figure 14. Process flow chart from CNT thin film formation to device fabrication for solution and dry processes
Figure 15. Schematic representation of methods used for carbon nanotube synthesis (a) Arc discharge (b) Chemical vapor deposition (c) Laser ablation (d) hydrocarbon flames
Figure 16. Arc discharge process for CNTs
Figure 17. Schematic of thermal-CVD method
Figure 18. Schematic of plasma-CVD method
Figure 19. CoMoCAT® process
Figure 20. 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 21. Schematic of laser ablation synthesis
Figure 22. MWCNT patents filed 2007-2022
Figure 23. SWCNT patent applications 2001-2021
Figure 24. Carbon nanotubes value chain
Figure 25. Electrochemical performance of nanomaterials in LIBs
Figure 26. Theoretical energy densities of different rechargeable batteries
Figure 27. Printed 1.5V battery
Figure 28. Materials and design structures in flexible lithium ion batteries
Figure 29. LiBEST flexible battery
Figure 30. Schematic of the structure of stretchable LIBs
Figure 31. Electrochemical performance of materials in flexible LIBs
Figure 32. Carbon nanotubes incorporated into flexible, rechargeable yarn batteries
Figure 33. (A) Schematic overview of a flexible supercapacitor as compared to conventional supercapacitor
Figure 34. Stretchable graphene supercapacitor
Figure 35. Demand for carbon nanomaterials in batteries (tons), 2018-2032
Figure 36. Demand for carbon nanotubes in supercapacitors (tons), 2018-2032
Figure 37. Nawa's ultracapacitors
Figure 38. Demand for carbon nanotubes in polymer additives (tons), 2018-2032
Figure 39. CSCNT Reinforced Prepreg
Figure 40. Demand for carbon nanotubes in 3-D printing (tons), 2018-2032
Figure 41. Demand for carbon nanotubes in adhesives (tons), 2018-2032
Figure 42. Carbon nanotube Composite Overwrap Pressure Vessel (COPV) developed by NASA
Figure 43. Demand for carbon nanomaterials in aerospace (tons), 2018-2032
Figure 44. HeatCoat technology schematic
Figure 45. Veelo carbon fiber nanotube sheet
Figure 46. Demand for carbon nanotubes in wearable electronics and displays, 2018-2032
Figure 47. Demand for carbon nanomaterials in transistors and integrated circuits, 2018-2032
Figure 48. Thin film transistor incorporating CNTs
Figure 49. Demand for carbon nanotubes in memory devices, 2018-2032
Figure 50. Carbon nanotubes NRAM chip
Figure 51. Strategic Elements’ transparent glass demonstrator
Figure 52. Demand for carbon nanotubes in rubber and tires (tons), 2018-2032
Figure 53. Demand for carbon nanotubes in automotive (tons), 2018-2032
Figure 54. Schematic of CNTs as heat-dissipation sheets
Figure 55. Demand for carbon nanotubes in conductive ink (tons), 2018-2032
Figure 56. Nanotube inks
Figure 57. Comparison of nanofillers with supplementary cementitious materials and aggregates in concrete
Figure 58. Demand for carbon nanotubes in construction (tons), 2018-2032
Figure 59. Demand for carbon nanotubes in filtration (tons), 2018-2032
Figure 60. Demand for carbon nanotubes in fuel cells (tons), 2018-2032
Figure 61. Demand for carbon nanotubes in life sciences and medical (tons), 2018-2032
Figure 62. CARESTREAM DRX-Revolution Nano Mobile X-ray System
Figure 63. Graphene medical biosensors for wound healing
Figure 64. 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 65. GraphWear wearable sweat sensor
Figure 66. Demand for carbon nanotubes in lubricants (tons), 2018-2032
Figure 67. Demand for carbon nanotubes in oil and gas (tons), 2018-2032
Figure 68. Demand for carbon nanotubes in paints and coatings (tons), 2018-2032
Figure 69. CSCNT Reinforced Prepreg
Figure 70. Demand for carbon nanotubes in photovoltaics (tons), 2018-2032
Figure 71. Suntech/TCNT nanotube frame module
Figure 72. Demand for carbon nanotubes in sensors (tons), 2018-2032
Figure 73. Demand for carbon nanotubes in textiles (tons), 2018-2032
Figure 74. AWN Nanotech water harvesting prototype
Figure 75. Carbonics, Inc.’s carbon nanotube technology
Figure 76. Fuji carbon nanotube products
Figure 77. Cup Stacked Type Carbon Nano Tubes schematic
Figure 78. CSCNT composite dispersion
Figure 79. Flexible CNT CMOS integrated circuits with sub-10 nanoseconds stage delays
Figure 80. Koatsu Gas Kogyo Co. Ltd CNT product
Figure 81. Test specimens fabricated using MECHnano’s radiation curable resins modified with carbon nanotubes
Figure 82. Hybrid battery powered electrical motorbike concept
Figure 83. NAWAStitch integrated into carbon fiber composite
Figure 84. Schematic illustration of three-chamber system for SWCNH production
Figure 85. TEM images of carbon nanobrush
Figure 86. CNT film
Figure 87. Schematic of a fluidized bed reactor which is able to scale up the generation of SWNTs using the CoMoCAT process
Figure 88. Carbon nanotube paint product
Figure 89. MEIJO eDIPS product
Figure 90. HiPCO® Reactor
Figure 91. Smell iX16 multi-channel gas detector chip
Figure 92. The Smell Inspector
Figure 93. Toray CNF printed RFID
Figure 94. Internal structure of carbon nanotube adhesive sheet
Figure 95. Carbon nanotube adhesive sheet

Companies Mentioned

A selection of companies mentioned in this report includes:

  • 3D Strong
  • AerNos, Inc.
  • Aligned Carbon, Inc.
  • Arkema France SA
  • Awn Nanotech, Inc.
  • Battelle Memorial Institute
  • BBCP Conductor, Inc.
  • Betterial
  • Bioneer Corporation
  • Bio-Pact, LLC
  • Birla Carbon
  • Black Diamond Structures, LLC
  • BNNano
  • BNNT LLC
  • BNNT, LLC
  • Brewer Science
  • C12 Quantum Electronics
  • C2CNT LLC/Capital Power
  • Cabot Corporation
  • Cametics Cambridge Advanced Metals Limited
  • Canatu Oy
  • Carbice Corp.
  • Carbon Meta Research
  • Carbon Nano-material Technology Ltd.
  • Carbon Upcycling Technologies, Inc.
  • Carbonics, Inc
  • CarbonMeta Research Ltd.
  • CarbonX
  • Carestream Health, Inc.
  • C-Bond Systems LLC
  • CENS Materials Ltd.
  • Chasm Advanced Materials, Inc.
  • Chengdu Organic Chemicals (TimesNano)
  • CNM Technologies GmbH
  • Dainichiseika Color & Chemicals Manufacturing
  • DexMat, Inc.
  • Distributors
  • Eden Innovations LLC
  • Epic Advanced Materials
  • EPIC™ Advanced Materials
  • Essentium, Inc.
  • Evercloak, Inc.
  • Ex-producers
  • Fuji Pigment Co., Ltd.
  • Fujitsu Laboratories
  • Furukawa Electric Co., Ltd.
  • FutureCarbon GmbH
  • Goodfellow Corporation
  • Groundstar, LLC
  • GSI Creos Corporation
  • H Quest Vanguard, Inc.
  • Hamamatsu Carbonics Corporation
  • Hitachi Zosen Corporation
  • Honjo Chemical Corporation
  • Huntsman Corporation (Nanocomp Technologies, Inc.)
  • Hycarb, Inc.
  • IBM Corporation
  • Inoplaztech
  • JEIO Co., Ltd.
  • Jiangsu CNano Limited
  • Jikantechno Corporation
  • Kao Corporation
  • KH Chemicals Co., Ltd.
  • KJ Specialty Paper Co., Ltd.
  • Koatsu Gas Kogyo Co., Ltd.
  • Korbon Co., Ltd.
  • Korea Kumho Petrochemical Co., Ltd.
  • Kusumoto Chemicals
  • Lanxess Deutschland GmbH
  • LeaderNano Tech LLC
  • LG Chemical, Ltd.
  • Lintec of America, Inc.
  • Li-S Energy Ltd
  • Mattershift
  • MC Yamasan Polymers Co., Ltd.
  • MECHnano LLC
  • Meijo Nano Carbon Co., Ltd.
  • Micro-X Limited
  • Murata Machinery Ltd.
  • Nacalai Tesque
  • Naieel Technology
  • Nano Cube Japan Co., Ltd.
  • Nano RAY-T LLC
  • Nano-C, Inc.
  • Nanocyl
  • Nanomix, Inc.
  • Nanoramic Laboratories
  • NanoRial Technologies Ltd
  • Nanosperse LLC
  • NanoTechLabs, Inc.
  • Nanotechnologies India Private Limited
  • Nanovis
  • Nantero, Inc.
  • Nawa Techonologies
  • NEC Corporation
  • Nemo Nanomaterials
  • NEO Battery Materials
  • New Metals and Chemicals Corporation
  • Nippon Shizai Co., Ltd.
  • Nissin Electric Co., Ltd.
  • Nitta Corporation
  • Novasolix, Inc.
  • Novation Solutions, LLC (NovationSi)
  • NTherma Corporation
  • OCSiAl Group
  • Odysseus Technologies, Inc.
  • Ororo
  • Oy Morphona Ltd.
  • Perpetuus Carbon Group
  • Plasma-X
  • Porifera, Inc.
  • Prysmian Group
  • Q-Flo Limited
  • Raymor Industries, Inc.
  • RTP Company
  • Sakata Inx Corp.
  • Saratoga Energy Corporation
  • Shenzhen Faymo Technology Co., Ltd.
  • Shenzhen Sanshun Nano New Materials Co., Ltd.
  • Sineva Material Technology Co., Ltd
  • SkyNano Technologies
  • SkyWater Technology
  • SmartNanotubes Technologies GmbH
  • Solarno, Inc.
  • Solid Carbon Products, LLC
  • Somalytics, Inc.
  • Taiwan Carbon Nanotube Technology
  • Taiyo Nippon Sanso Corporation
  • Takenaka Seisakusho Co., Ltd.
  • TE Connectivity
  • Teijin Aramid B.V.
  • Tesla Nanocoatings
  • Thomas Swan & Co., Ltd.
  • Toho Kasei
  • Toho Tenax Co., Ltd.
  • Tokushu Tokai Paper Co., Ltd.
  • Top Nanosys
  • Toray Industries, Inc.
  • Tortech Nano Fibers
  • Toyo Tanso Co., Ltd.
  • Toyocolor Co., Ltd.
  • TPR Co., Ltd.
  • Trim Tabs
  • Tyrata, Inc.
  • Veelo Technologies
  • Verdox
  • Watson Nano
  • Xianfeng NanoMaterials Co., Ltd.
  • XinNano Material, Inc
  • Zeon Nano Technology Co., Ltd.
  • Zeptor Corporation
  • ZOZ GmbH
  • Zyvex Technologies

Methodology

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