About cookies on this site Our websites require some cookies to function properly (required). In addition, other cookies may be used with your consent to analyze site usage, improve the user experience and for advertising. For more information, please review your options. By visiting our website, you agree to our processing of information as described in IBM’sprivacy statement. To provide a smooth navigation, your cookie preferences will be shared across the IBM web domains listed here.
Publication
IEEE Transactions on Electron Devices
Paper
10-nm channel length pentacene transistors
Abstract
Organic thin-film transitors (OTFTs) were fabricated with channel lengths as small as 10 nm and an operating voltage of VDD = -0.3 V using e-beam lithography. For sub-200-nm channel lengths, scaling L downwards resulted in increased on-current, decreased Ion/Ioff ratio, VT-rolloff, and drain-induced barrier lowering. These trends are correlated with device topology, electrostatics, and thin-film morphology. Nanoscale OTFT are interesting both as a means of studying intrinsic electrical properties of organic materials and as a possible route toward increasing on-current in organic devices. This paper sheds light on many of the issues encountered when shrinking organic devices, providing insight into approaches for optimizing nanoscaled OTFT. © 2005 IEEE.