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Research and Markets(www.researchandmarkets.com/research/9b2f9d/carbon_nanotubes_a) has announced the addition of the "Carbon Nanotubes and Graphene for Electronics Applications: Technologies, Players & Opportunities" report to their offering.

Research and Markets: Carbon Nanotubes and Graphene for Electronics Applications: Technologies, Players & Opportunities Out Now

DUBLIN, Ireland | Posted on June 22nd, 2009

Carbon Nanotubes (CNTs) and graphene exhibit extraordinary electrical properties for organic materials, and have a huge potential in electrical and electronic applications such as sensors, semiconductor devices, displays, conductors and energy conversion devices (e.g., fuel cells, harvesters and batteries). This report brings all of this together, covering the latest work from 78 organizations around the World to details of the latest progress applying the technologies. Challenges and opportunities with material production and application are given.

Applications of Carbon Nanotubes and Graphene for electronics applications Depending on their chemical structure, carbon nanotubes (CNTs) can be used as an alternative to organic or inorganic semiconductors as well as conductors, but the cost is currently the greatest restraint. However, that has the ability to rapidly fall as new, cheaper mass production processes are established, which is covered in this report. In electronics, other than electromagnetic shielding, one of the first large applications for CNTs will be conductors. In addition to their high conductance, they can be transparent, flexible and even stretchable. Here, applications are for displays, replacing ITO; touch screens, photovoltaics and display bus bars and beyond.

In addition, interest is high as CNTs have demonstrated mobilities which are magnitudes higher than silicon, meaning that fast switching transistors can be fabricated. In addition, CNTs can be solution processed, i.e. printed. In other words, CNTs will be able to provide high performing devices which can ultimately be made in low cost manufacturing processes such as printing, over large areas. They have application to supercapacitors, which bridge the gap between batteries and capacitors, leveraging the energy density of batteries with the power density of capacitors and transistors. Challenges are material purity, device fabrication, and the need for other device materials such as suitable dielectrics. However, the opportunity is large, given the high performance, flexibility, transparency and printability. Companies that IDTechEx surveyed report growth rates as high as 300% over the next five years.

Graphene, a cheap organic material, is being enhanced by companies that are increasing its conductivity, to be used in some applications as a significantly cheaper printed conductor compared to silver ink. All this work is covered in this new report.

Activity from 78 organizations profiled The publisher has researched 78 companies and academic institutions working on carbon nanotubes and graphene, all profiled in the report. While manufacturers in North America focus more on single wall CNTs (SWCNTs); Asia and Europe, with Japan on top and China second, are leading the production of multi wall CNTS (MWCNTs) with Showa Denko, Mitsui and Hodogaya Chemical being among the largest suppliers.

Opportunities for Carbon Nanotube material supply A number of companies are already selling CNTs with metallic and semiconducting properties grown by several techniques in a commercial scale but mostly as raw material and in limited quantities. However, the selective and uniform production of CNTs with specific diameter, length and electrical properties is yet to be achieved in commercial scale. A significant limitation for the use of CNTs in electronic applications is the coexistence of semiconducting and metallic CNTs after synthesis in the same batch. Several separation methods have been discovered over the last few years which are covered in the report, as is the need for purification.

Opportunities for Carbon Nanotube device manufacture There are still some hurdles to overcome when using printing for the fabrication of thin carbon nanotube films. There is relatively poor quality of the nanotube starting material, which mostly shows a low crystallinity, low purity and high bundling. Subsequently, purifying the raw material without significantly degrading the quality is difficult. Furthermore there is also the issue to achieve good dispersions in solution and to remove the deployed surfactants from the deposited films. The latest work by company is featured in the report.

Key benefits of purchasing this report

This concise and unique report from IDTechEx gives an in-depth review to the applications, technologies, emerging solutions and players. It addresses specific topics such as:

* Activities of 78 global organizations which are active in the development of materials or devices using carbon nanotubes or graphene.
* Application to conductors, displays, transistors, super capacitors, photovoltaics and much more
* Types of carbon nanotubes and graphene and their properties and impact on electronics
* Current challenges in production and use and opportunities
* Forecasts for the entire printed electronics market which carbon nanotubes and printed electronics could impact

For those involved in making or using carbon nanotubes, or those developing displays, photovoltaics, transistors, energy storage devices and conductors and want to learn about how they can benefit from this technology, this is a must-read report.

Companies Mentioned:

* Angstron Materials LLC., USA
* Arry International Group, Hong Kong
* BASF, Germany
* Chengdu Organic Chemicals Co. Ltd. (Timesnano), China
* Cornell University, USA
* Dainippon Screen Mfg. Co., Ltd., Japan
* DuPont, USA
* Eikos, USA
* Frontier Carbon Corporation (FCC), Japan
* Georgia Tech Research Institute (GTRI), USA
* HeJi, Inc., China
* Honjo Chemical Corporation, Japan
* HRL Laboratories, USA
* ILJIN Nanotech Co. Ltd., Korea
* Intelligent Materials PVT. Ltd. (Nanoshel), India
* MIT, USA
* Mitsui Co., Ltd, Japan
* NEC Corporation, Japan
* Noritake Co., Japan
* Optomec, USA
* Rutgers University, USA
* SES Research, USA
* Shenzhen Nanotechnologies Co. Ltd. (NTP)
* Sun Nanotech Co, Ltd., China
* Unidym, Inc., USA
* University of California Los Angeles (UCLA), USA
* Vorbeck Materials Corp, USA
* XG Sciences, USA
* Xintek Nanotechnology Innovations, USA
* Zyvex, Inc., USA