Brewer Science introduces new conductive CNT inks for printed electronics applications
November 15, 2012 - Brewer Science introduces easy-to-implement conductive carbon nanotube (CNT) inks that are stable, concentrated, and designed especially for printed electronics applications.
The Brewer Science conductive CNT ink materials are surfactant free, require no additional rinse steps, and are compatible with a broad range of printed electronic substrates. Cure temperatures for desired conductivity results are between 115°C and 130°C. Inks with high concentrations of CNTs in low-viscosity solutions are available in aqueous and solvent-based systems, giving them broad compatibility and enabling the design of inks for a broad set of application technologies such as sensors, displays, and packaging integration. Formulations are available for Optomec’s Aerosol Jet® technology systems, Fujifilm Dimatix’s materials printer DMP-2800, spray coating, and drawdown bar coating.
These CNT inks have achieved sheet resistance of 300 ohm/sq for 85%T (optical transmission) at 550 nm for transparent conductive applications. For conductive trace applications, sheet resistance of 1 ohm/sq and conductivity of 75,000 siemens/meter have been achieved. Films produced with these inks on polyethylene terephthalate (PET) have demonstrated both high adhesion and mechanical flexibility. Both adhesion and conductivity remain stable after repeated folding of the CNT-coated PET.
“This robust performance will enable flexible printed electronic device applications,” said Jim Lamb, Director of Brewer Science’s Printed Electronics Technology Center. “These solutions contain no surfactants and require no additional post-process rinsing, which will speed commercial adoption by eliminating the cost of the extra rinse process steps and preventing generation of a CNT-contaminated waste stream. Although we designed these materials for plastic printed electronics applications, they are also compatible with a wide range of substrates such as paper, glass, silicon, and metal.”
Materials are developed by Brewer Science’s Printed Electronics Technology Center as part of its CNT materials, applications, and device prototyping services at the Jordan Valley Innovation Center in Springfield, Missouri. “Brewer Science is focused on bringing the unique properties of CNTs for commercial electronics applications to customers in the next three to five years,” added Jim Lamb.
Visit Brewer Science at BOOTH O-03 at the IDTechEx Printed Electronics – USA conference December 5-6, 2012.
Some of the information presented in this publication was prepared by Brewer Science, Inc., under award 70NANB10H001 from the National Institute of Standards and Technology (NIST), U.S. Department of Commerce. The statements, findings, conclusions, and recommendations are those of the author(s) and do not necessarily reflect the views of NIST, the Technology Innovation Program, or the U.S. Department of Commerce.
About Brewer Science
Brewer Science is a global technology leader in developing and manufacturing advanced materials, integrated processes, and laboratory-scale wafer processing equipment for applications in semiconductors, compound semiconductors, advanced packaging/3-D integrated circuits, MEMS, sensors, displays, LEDs, and printed electronics. The company continuously introduces high-technology solutions that enable reliable fabrication of cutting-edge, high-performance integrated microdevices used in the most advanced and elegant electronics such as tablet computers, smart phones, digital cameras, flat-panel monitors and TVs, and LED lighting. Since 1981, when its ARC® material technology revolutionized lithography processes, Brewer Science has expanded its spectrum of technology to include products currently used in advanced lithography, chemical and mechanical device protection, thin layer handling, and 3-D integration, as well as products based on carbon nanotubes and nanotechnology.
If you would like more information about this topic please contact:
Jim Lamb, Director of Printed Electronics Technology Center