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Reliable, High Performance Transistors on Flexible Substrates
IB-3252

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ABSTRACT

Researchers at Berkeley Lab have produced uniform, high performance transistors on mechanically flexible, stretchable substrates by solution processing semiconductor-enriched single wall carbon nanotube (SWNT) networks.

The research team obtained high performance thin film transistor arrays with superb electrical properties (mobility of approximately 20 square centimeters per volt-second and an on/off electrical current ratio of approximately 10,000) on polyimide substrates made flexible by laser cutting a honeycomb mesh structure. The technology, demonstrated on areas as large as 7.5 square centimeters, yields minimal variation from device to device. The Berkeley Lab invention could be combined with inkjet printing of metal contacts for lithography-free fabrication of low cost flexible and stretchable electronics.

Attempts to use other materials to develop flexible electronics have presented challenges. For example, organic materials have demonstrated low performance due to their high operating voltage requirement. SWNTs, attractive candidates given their high carrier mobility, high chemical stability and high bendability, among other desirable mechanical properties, have, until only recently, posed challenges in fabricating devices with high on/off current ratio.

STATUS: Patent pending. Available for licensing or collaborative research.

DEVELOPMENT STAGE: The researchers fabricated a pressure-mapping sensor on a rubber substrate. For more details, see the publication linked below.

FOR MORE INFORMATION:

Takahashi, T., Takei, K., Gillies, A.G., Fearing, R.S., Javey, A. “Carbon Nanotube Active-Matrix Backplanes for Conformal Electronics and Sensors,” Nano Lett., 2011, 11, 5408-5413.

SEE THESE OTHER BERKELEY LAB TECHNOLOGIES IN THIS FIELD:

Tunable Graphene Electronic Devices, JIB-2697

Low cost, Efficient, Flexible Solar Cells with 3D Nanopillar Arrays, IB-2705

REFERENCE NUMBER: IB-3252

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