Tuesday, May 17th, 2016 - RnR Market Research

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

Complete report on Carbon Nanotubes Market spread across 573 page is available at http://www.rnrmarketresearch.com/the-global-market-for-carbon-nanotubes-to-2024-market-report.html

What Does The Report Include?

  • Comprehensive quantitative data and forecasts for the global carbon nanotubes market to 2025
  • Qualitative insight and perspective on the current market and future trends in end user markets
  • End user market analysis and technology timelines
  • Financial estimates for the markets carbon nanotubes will impact
  • Tables and figures illustrating carbon nanotubes market size
  • Full company profiles of carbon nanotubes producers and application developers including technology descriptions and end user markets targeted

List of Tables

Table 1: Properties of CNTs and comparable materials 37
Table 2: Carbon nanotubes target markets-Applications, stage of commercialization and potential addressable market size 40
Table 3: Annual production capacity of MWNT and SWNT producers 43
Table 4: SWNT producers production capacities 2015 46
Table 5: Global production of carbon nanotubes, 2010-2025 in tons/year Base year for projections is 2014 48
Table 6: Competitive analysis of Carbon nanotubes and graphene by application area and potential impact by 2025 58
Table 7: Categorization of nanomaterials 62
Table 8: Comparison between single-walled carbon nanotubes (SWCNT) and multi-walled carbon nanotubes 69
Table 9: Properties of carbon nanotubes 79
Table 10: Comparative properties of carbon materials 84
Table 11: Comparative properties of graphene with nanoclays and carbon nanotubes 87
Table 12: Competitive analysis of Carbon nanotubes and graphene by application area and potential impact by 2025 89
Table 13: Electronic and mechanical properties of monolyaer phosphorene, graphene and MoS2 94
Table 14: Recent phosphorene research news 97
Table 15: Recent silicene research news 103
Table 16: Recent Molybdenum disulfide research news 109
Table 17: Recent hexagonal boron nitride research news 114
Table 18: Recent germanane research news 117
Table 19: Recent stanene/tinene research news 126
Table 20: Recent tungsten diselenide research news 128

And more

Purchase a Copy of Report at http://www.rnrmarketresearch.com/contacts/purchase?rname=199261.

List of Figures

Figure 1: Molecular structures of SWNT and MWNT 37
Figure 2: Production capacities for SWNTs in kilograms, 2005-2014 47
Figure 3: Schematic of single-walled carbon nanotube 67
Figure 4: Double-walled carbon nanotube bundle cross-section micrograph and model 71
Figure 5: Schematic representation of carbon nanohorns 72
Figure 6: TEM image of carbon onion 74
Figure 7: Fullerene schematic 76
Figure 8: Schematic of Boron Nitride nanotubes (BNNTs) Alternating B and N atoms are shown in blue and red 78
Figure 9: Graphene can be rolled up into a carbon nanotube, wrapped into a fullerene, and stacked into graphite 83
Figure 10: Phosphorene structure 93
Figure 11: Silicene structure 99
Figure 12: Monolayer silicene on a silver (111) substrate 100
Figure 13: Silicene transistor 101
Figure 14: Structure of 2D molybdenum disulfide 104
Figure 15: Atomic force microscopy image of a representative MoS2 thin-film transistor 107
Figure 16: Schematic of the molybdenum disulfide (MoS2) thin-film sensor with the deposited molecules that create additional charge 108
Figure 17: Structure of hexagonal boron nitride 112
Figure 18: Schematic of germanene 115
Figure 19: Graphdiyne structure 118
Figure 20: Schematic of Graphane crystal 122
Figure 21: Crystal structure for stanene 124
Figure 22: Atomic structure model for the 2D stanene on Bi2Te3(111) 125
Figure 23: Schematic of tungsten diselenide 127
Figure 24: Schematic of a monolayer of rhenium disulphide 130

And more

Explore other reports on Future Markets at http://www.rnrmarketresearch.com/publisher/Future-Markets,-Inc..html.

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Carbon Nanotubes Market, Carbon Nanotubes, Nanotubes, market reserach reports

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