According to The Global Market for Carbon Nanotubes: Technologies, Production, End User Markets and Opportunities Analysis, 2015 – 2025 report once the most promising of all nanomaterials, carbon nanotubes (CNTs) face stiff competition in conductive applications from graphene and other 2D materials and in mechanically enhanced composites from nanocellulose. However, after considerable research efforts, real CNT products are hitting the market, and large-scale industrial production of single-walled carbon nanotubes (SWNTs) has been initiated, promising new market opportunities in transparent conductive films, transistors, sensors and memory devices. Li-ion battery additives and super capacitors are also potential high growth market opportunities.
The Global Market for Carbon Nanotubes: Technologies, Production, End User Markets and Opportunities Analysis, 2015-2025 report is 437 pages report available at:
What Does The Report Include?
- Comprehensive quantitative data and forecasts for the global graphene market to 2025
- Qualitative insight and perspective on the current market and future trends in end user markets based on interviews with key executives
- End user market analysis and technology timelines
- Financial estimates for the markets graphene will impact
- Patent analysis
- Tables and figures illustrating graphene market size
- Full company profiles of graphene producers and application developers including technology descriptions and end user markets targeted
- Profiles of prominent research centres
- Industry activity and breakthroughs by market 2013-2015
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List of Tables and Figures
Table 1: Carbon nanotubes target markets-Applications, stage of commercialization and potential addressable market size.
Table 2: Global production of carbon nanotubes, 2010-2025 in tons/year. Base year for projections is 2014.
Figure 1: Global market for carbon nanotubes 2010-2025 in tons/year.
Table 3: Carbon nanotubes production plants worldwide, by country, and production capacity.
Figure 2: Regional demand for CNT-based transparent conductive films.
Figure 3: Regional demand for CNT-based LIB additives
Figure 4: Regional demand for CNT-based LIB additives.
Table 4: Market penetration and volume estimates (tons) for carbon nanotubes in key markets.
Table 5: Categorization of nanomaterials.
Figure 5: Schematic of single-walled carbon nanotube.
Figure 6: Conceptual diagram of single-walled carbon nanotube (SWNT) (A) and multi-walled carbon nanotubes (MWNT).
Figure 7: Double-walled carbon nanotube bundle cross-section micrograph and model.
Figure 8: Schematic representation of carbon nanohorns.
Table 6: Properties of carbon nanotubes.
Figure 8: Graphene can be rolled up into a carbon nanotube, wrapped into a fullerene, and stacked into graphite.
Table 7: Comparative properties of carbon materials.
Table 8: Comparative properties of graphene with nanoclays and carbon nanotubes.
Figure 9: Phosphorene structure.
Table 9: Recent phosphorene research news.
Figure 10: Silicene structure.
Table 10: Recent silicene research news.
Figure 10: Structure of 2D molybdenum disulfide.
Figure 11: Atomic force microscopy image of a representative MoS2 thin-film transistor.
Figure 12: Schematic of the molybdenum disulfide (MoS2) thin-film sensor with the deposited molecules that create additional charge.
Table 11: Recent Molybdenum disulfide research news.
Figure 13: Structure of hexagonal boron nitride.
Table 12: Recent hexagonal boron nitride research news.
Figure 14: Schematic of germanane.
Table 13: Recent germanane research news.
Figure 15: Graphdiyne structure.
Figure 16: Schematic of Graphane crystal.
Figure 17: Crystal structure for stanene.
Figure 18: Schematic of tungsten diselenide.
Figure 19: Schematic of a monolayer of rhenium disulphide.
Table 14: Comparative analysis of graphene and other 2-D nanomaterials.
Figure 20: CVD process for CNTs.
Figure 21: Flame synthesis method.
Figure 22: CoMoCAT® process.
Figure 23: HiPco process.
Figure 24: Laser ablation synthesis.
Figure 25: PECVD synthesis.
Figure 26: Silane solution method.
Table 15: Carbon nanotubes market structure.
Table 16: Carbon nanotubes applications roadmap-Stage of commercialization, from basic concept to mass production.
Table 17: Global production of carbon nanotubes, 2010-2025 in tons/year. Base year for projections is 2014.
Figure 27: Global production of carbon nanotubes 2010-2025 in tons/year. Base year for projections is 2014.
Table 18: Carbon nanotubes prices
Table 19: Market penetration and volume estimates (tons) for carbon nanotubes in key applications.
Table 20: Annual production capacity of main carbon nanotubes producers.
Table 21: Carbon nanotubes in the electronics and photonics market-applications, stage of commercialization and addressable market size.
Table 22: Comparison of ITO replacements.
Figure 28: CNT transparent conductive film formed on glass and schematic diagram of its structure.
Table 23: Comparative properties of conductive inks
Figure 28: Nanotube inks.
Figure 29: Thin film transistor incorporating CNTs.
Figure 30: Carbon nanotubes NRAM chip.
Figure 31: Schematic of NRAM cell.
Table 24: Carbon nanotubes product and application developers in the electronics industry.
Table 25: Carbon nanotubes in the polymer composites market applications, stage of commercialization and addressable market size.
Table 26: Addressable market size for carbon nanotubes composites.
Table 27: Carbon nanotubes product and application developers in the composites industry.
Table 28: Carbon nanotubes in the aerospace market-applications, stage of commercialization and addressable market size.
Table 29: Carbon nanotubes product and application developers in the aerospace industry.
Table 30: Carbon nanotubes in the automotive market applications, stage of commercialization and addressable market size.
Table 31: Carbon nanotubes product and application developers in the automotive industry.
Table 32: Carbon nanotubes in the biomedical and healthcare markets-applications, stage of commercialization and addressable market size.
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