New Research Report on Carbon Nanotubes (CNT) for Electronics & Electrics Market 2013-2023 by MarketResearchReports
New Market Research Report Added in MarketResearchReports.Biz Database Carbon Nanotubes (CNT) for Electronics & Electrics 2013-2023: Forecasts, Applications, Technologies.
Albany, NY, February 27, 2013 --(PR.com)-- Carbon Nanotubes (CNTs) and their compounds exhibit extraordinary electrical properties for organic materials, and have a huge potential in electrical and electronic applications such as photovoltaics, sensors, semiconductor devices, displays, conductors, smart textiles and energy conversion devices (e.g., fuel cells, harvesters and batteries).
Carbon nanotubes for electronics applications are still a strong focus for research and printable carbon nanotube inks are beginning to hit the market. CNTs are used for making transistors and are applied as conductive layers for the rapidly growing touch screen market. CNTs are considered a viable replacement for ITO transparent conductors in some applications. Fabricated as transparent conductive films (TCF), carbon nanotubes can potentially be used as a highly conductive, transparent and cost efficient alternative in flexible displays and touch screens, for instance. While the cost of carbon nanotubes was once prohibitive, it has been coming down in recent years as chemical companies build up manufacturing capacity reaching $10/m2 for film applications.
To Buy The Copy Of This Report Visit: http://www.marketresearchreports.biz/analysis-details/carbon-nanotubes-cnt-for-electronics-and-electrics-2013-2023-forecasts-applications-technologies
Apart from TCF applications carbon nanotubes for thin-film batteries, supercapacitors and ultraconductive copper will reach a significant share of the overall market driving the further ramp-up of production capacity and with that cost reduction.
Table of Contents
1.Executive Summary
1.1.Key applications are transistors and conductors
1.1.1.Opportunities for Carbon Nanotube material supply
1.1.2.Opportunities for Carbon Nanotube device manufacture
1.1.3.Conductive films will come first
1.1.4.Supercapacitors
1.1.5.Transistors, etc to follow
1.2.99 Organizations profiled
2.Introduction
2.1.Carbon Nanotubes
3.PROPERTIES
3.1.Properties of CNTs
3.2.Metallic/semiconducting CNT separation
3.3.CNTs as conductors
3.4.Comparison to other conductors
3.5.Comparison to other semiconductors
4.Manufacture
4.1.Manufacture of CNTs
4.1.1.Arc Discharge
4.1.2.Laser Ablation Method
4.1.3.Chemical Vapor Deposition (CVD)
5.Applications
5.1.Developers of Carbon Nanotubes for Printed Electronics
5.2.Printing Carbon Nanotubes
5.2.1.Latest progress
5.3.Conductors
5.3.1.Deposition technologies and main applications
5.3.2.Latest progress with CNT conductors
5.3.3.Challenges
5.4.Semiconductors
5.5.Transistors
5.5.1.CNT Transistors
5.5.2.Challenges
5.6.OLEDs and flexible displays
5.6.1.Latest progress
5.6.2.Surface-Mediated Cells, SMCs
5.7.Lighting
5.8.Energy storage devices
5.8.1.Batteries
5.8.2.Supercapacitors
5.9.Photovoltaics
5.9.1.Organic Photovoltaics
5.9.2.Hybrid organic-inorganic photovoltaics
5.9.3.Infrared solar cells
5.9.4.CNT Solar Cell
5.9.5.Photodiode
5.10.NRAM data storage device
5.11.Sensors and Smart Textiles
5.12.Thin film speakers
5.13.CNTs for Touch Screens
5.14.Ultraconductive Copper
To Read The Complete Report with TOC Kindly Visit: http://www.marketresearchreports.biz/analysis/160913
6.Company Interviews
6.1.Arkema
6.2.Bayer MaterialScience AG
6.3.Canatu
6.4.CNano Technology Ltd
6.5.Hyperion Catalysis International
6.6.Nanocomp Technologies
6.7.Nanocyl
6.8.NanoIntegris
6.9.Showa Denko K.K.
6.10.SouthWest NanoTechnologies (SweNT)
6.11.Thomas Swan
6.12.Toray Industries
6.13.Unidym
6.14.Xolve
6.15.Zyvex Technologies
For More Information Contact:
Hemendra Parmar
State Tower
90 State Street, Suite 700
Albany, NY 12207
United States
Tel: +1-518-618-1030
sales@marketResearchReports.biz
website: http://www.marketresearchreports.biz/
Blog: http://mrrbiz.blogspot.ch/
Carbon nanotubes for electronics applications are still a strong focus for research and printable carbon nanotube inks are beginning to hit the market. CNTs are used for making transistors and are applied as conductive layers for the rapidly growing touch screen market. CNTs are considered a viable replacement for ITO transparent conductors in some applications. Fabricated as transparent conductive films (TCF), carbon nanotubes can potentially be used as a highly conductive, transparent and cost efficient alternative in flexible displays and touch screens, for instance. While the cost of carbon nanotubes was once prohibitive, it has been coming down in recent years as chemical companies build up manufacturing capacity reaching $10/m2 for film applications.
To Buy The Copy Of This Report Visit: http://www.marketresearchreports.biz/analysis-details/carbon-nanotubes-cnt-for-electronics-and-electrics-2013-2023-forecasts-applications-technologies
Apart from TCF applications carbon nanotubes for thin-film batteries, supercapacitors and ultraconductive copper will reach a significant share of the overall market driving the further ramp-up of production capacity and with that cost reduction.
Table of Contents
1.Executive Summary
1.1.Key applications are transistors and conductors
1.1.1.Opportunities for Carbon Nanotube material supply
1.1.2.Opportunities for Carbon Nanotube device manufacture
1.1.3.Conductive films will come first
1.1.4.Supercapacitors
1.1.5.Transistors, etc to follow
1.2.99 Organizations profiled
2.Introduction
2.1.Carbon Nanotubes
3.PROPERTIES
3.1.Properties of CNTs
3.2.Metallic/semiconducting CNT separation
3.3.CNTs as conductors
3.4.Comparison to other conductors
3.5.Comparison to other semiconductors
4.Manufacture
4.1.Manufacture of CNTs
4.1.1.Arc Discharge
4.1.2.Laser Ablation Method
4.1.3.Chemical Vapor Deposition (CVD)
5.Applications
5.1.Developers of Carbon Nanotubes for Printed Electronics
5.2.Printing Carbon Nanotubes
5.2.1.Latest progress
5.3.Conductors
5.3.1.Deposition technologies and main applications
5.3.2.Latest progress with CNT conductors
5.3.3.Challenges
5.4.Semiconductors
5.5.Transistors
5.5.1.CNT Transistors
5.5.2.Challenges
5.6.OLEDs and flexible displays
5.6.1.Latest progress
5.6.2.Surface-Mediated Cells, SMCs
5.7.Lighting
5.8.Energy storage devices
5.8.1.Batteries
5.8.2.Supercapacitors
5.9.Photovoltaics
5.9.1.Organic Photovoltaics
5.9.2.Hybrid organic-inorganic photovoltaics
5.9.3.Infrared solar cells
5.9.4.CNT Solar Cell
5.9.5.Photodiode
5.10.NRAM data storage device
5.11.Sensors and Smart Textiles
5.12.Thin film speakers
5.13.CNTs for Touch Screens
5.14.Ultraconductive Copper
To Read The Complete Report with TOC Kindly Visit: http://www.marketresearchreports.biz/analysis/160913
6.Company Interviews
6.1.Arkema
6.2.Bayer MaterialScience AG
6.3.Canatu
6.4.CNano Technology Ltd
6.5.Hyperion Catalysis International
6.6.Nanocomp Technologies
6.7.Nanocyl
6.8.NanoIntegris
6.9.Showa Denko K.K.
6.10.SouthWest NanoTechnologies (SweNT)
6.11.Thomas Swan
6.12.Toray Industries
6.13.Unidym
6.14.Xolve
6.15.Zyvex Technologies
For More Information Contact:
Hemendra Parmar
State Tower
90 State Street, Suite 700
Albany, NY 12207
United States
Tel: +1-518-618-1030
sales@marketResearchReports.biz
website: http://www.marketresearchreports.biz/
Blog: http://mrrbiz.blogspot.ch/
Contact
Market Research Reports.biz
Hemendra Parmar
+1-518-618-1030
www.marketresearchreports.biz
Contact
Hemendra Parmar
+1-518-618-1030
www.marketresearchreports.biz
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