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Organic Junction Field‐Effect Transistor
Advanced Functional Materials, 2013The realization and performance of a novel organic field‐effect transistor—the organic junction field‐effect transistor (JFET)—is discussed. The transistors are based on the modulation of the thickness of a depletion layer in an organic pin junction with varying gate potential.
Lüssem, Björn +4 more
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Organic Field Effect Transistors for Textile Applications
IEEE Transactions on Information Technology in Biomedicine, 2005In this paper, several issues concerning the development of textiles endowed with electronic functions will be discussed. In particular, issues concerning materials, structures, electronic models, and the mechanical constraints due to textile technologies will be detailed.
BONFIGLIO A +6 more
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Ambipolar Multi‐Stripe Organic Field‐Effect Transistors
Advanced Materials, 2011Here we demonstrate a new architecture for ambipolar device, termed multi-stripe OFET (MSOFET), where the current flows through a planar array of precisely-defined sub-micrometric stripes (wires) made of two types of highly-ordered organic ...
Cavallini M +8 more
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Operational Stability of Organic Field‐Effect Transistors
Advanced Materials, 2012AbstractOrganic field‐effect transistors (OFETs) are considered in technological applications for which low cost or mechanical flexibility are crucial factors. The environmental stability of the organic semiconductors used in OFETs has improved to a level that is now sufficient for commercialization.
Bobbert, Peter A. +4 more
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Vertical Organic Field‐Effect Transistors
Advanced Functional Materials, 2019AbstractField‐effect transistors are the fundamental building blocks for electronic circuits and processors. Compared with inorganic transistors, organic field‐effect transistors (OFETs), featuring low cost, low weight, and easy fabrication, are attractive for large‐area flexible electronic devices.
Jinyu Liu +5 more
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Monolayer organic field-effect transistors
Science China Chemistry, 2019Monolayer organic field-effect transistors (OFETs) are attracting worldwide interest in device physics and novel applications due to their ultrathin active layer for two-dimensional charge transport. The monolayer films are generally prepared by thermal evaporation, the Langmuir technique or self-assembly process, etc., but their electrical performance
Jie Liu +4 more
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All-organic field effect transistors
MRS Proceedings, 2003AbstractIn this work we present fully patterned organic transistors based on selective electropolymerization of conducting polymers that enables simple fabrication of micron scale features. It involves fabrication of pentacene field effect transistors in which the conducting, insulating parts as well as the substrate are all made of polymers.
R. Parashkov +7 more
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Bio-organic field effect transistors
SPIE Proceedings, 2007This paper reports on the use of new DNA-based biopolymers as the semiconducting layer in field effect transistors. Thin-film field effect transistor (FET) structures are fabricated with two different DNA-biopolymers as semiconductor layers, and two different field effect transistor structures are studied.
Carrie M. Bartsch +6 more
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Organic Field-Effect Transistors
Advanced Materials, 1998Organic field-effect transistors (OFETs) were first described in 1987. Their characteristics have undergone spectacular improvements during the last two or three years. At the same time, several models have been developed to rationalize their operating mode.
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Organic field-effect bipolar transistors
Applied Physics Letters, 1996Organic field-effect transistors (FETs) which employ two carefully selected active materials can function as n channel, p channel, or both n- and p-channel devices. It is shown that under an appropriate set of bias conditions the channel current in FETs with α-hexathienylene (α-6T) and C60 active layers consist of electron and hole components that are ...
DODABALAPUR A +3 more
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