Journal ArticleDOI
Solution-Processed Ambipolar Organic Thin-Film Transistors by Blending p- and n-Type Semiconductors: Solid Solution versus Microphase Separation
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TLDR
It is found that the solid solutions of (1)x(2)1-x function as ambipolar semiconductors, whose hole and electron mobilities are tunable by varying the ratio of 1 and 2 in the solid solution.Abstract:
Here, we report solid solution of p- and n-type organic semiconductors as a new type of p–n blend for solution-processed ambipolar organic thin film transistors (OTFTs). This study compares the solid-solution films of silylethynylated tetraazapentacene 1 (acceptor) and silylethynylated pentacene 2 (donor) with the microphase-separated films of 1 and 3, a heptagon-embedded analogue of 2. It is found that the solid solutions of (1)x(2)1–x function as ambipolar semiconductors, whose hole and electron mobilities are tunable by varying the ratio of 1 and 2 in the solid solution. The OTFTs of (1)0.5(2)0.5 exhibit relatively balanced hole and electron mobilities comparable to the highest values as reported for ambipolar OTFTs of stoichiometric donor–acceptor cocrystals and microphase-separated p-n bulk heterojunctions. The solid solution of (1)0.5(2)0.5 and the microphase-separated blend of 1:3 (0.5:0.5) in OTFTs exhibit different responses to light in terms of absorption and photoeffect of OTFTs because the don...read more
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Organic Semiconductor Single Crystals for Electronics and Photonics.
TL;DR: An overview of the fundamental insights into developing high-performance organic semiconductors, efficient strategies for yielding desirable high-quality OSSCs, and their applications in optoelectronic devices and circuits is presented.
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Recent progress on organic donor–acceptor complexes as active elements in organic field-effect transistors
TL;DR: In this paper, the authors summarize the recent progress on the methods to prepare donor-acceptor co-crystals and their films, present their structure-property relationships, and discuss their potential applications in organic field effect transistors according to the cocrystals with different acceptors, namely, (a) tetracyanoquinodimethane (TCNQ) and derivatives; (b) fullerene derivatives (such as C60 and C70); and (c) naphthalenediimide and perylenedimide derivatives.
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Recent Advances in Ambipolar Transistors for Functional Applications
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Inkjet-Printing: A New Fabrication Technology for Organic Transistors
TL;DR: In this article, the most significant examples of inkjet-printed organic transistors of different types (field effect, electrolyte-gated, and electrochemical) are presented and finally an overview of their applications as building blocks of more complex electronic circuits and systems for the detection and quantification of specific measurands is provided.
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Preparation of Single‐Crystalline Heterojunctions for Organic Electronics
TL;DR: Recent advances in the efficient strategies that have emerged in yielding high-quality single-crystalline heterojunctions are highlighted here and have started to exhibit rich physical properties, including metallic conduction, photovoltaic effects, and so on.
References
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Journal ArticleDOI
Electron and ambipolar transport in organic field-effect transistors.
Journal ArticleDOI
Kelvin probe force microscopy and its application
TL;DR: Kelvin probe force microscopy (KPFM) is a tool that enables nanometer-scale imaging of the surface potential on a broad range of materials as discussed by the authors, including metallic nanostructures, semiconductor materials, and electrical devices.
Journal ArticleDOI
Functionalized Pentacene: Improved Electronic Properties from Control of Solid-State Order
TL;DR: The preparation of two functionalized pentacene derivatives, and the effect of this functionalization on both the solid-state ordering and the electronic properties of the resulting crystals is reported.
Journal ArticleDOI
Tuning charge transport in solution-sheared organic semiconductors using lattice strain
Gaurav Giri,Eric Verploegen,Eric Verploegen,Stefan C. B. Mannsfeld,Sule Atahan-Evrenk,Do Hwan Kim,Sang Yoon Lee,Hector A. Becerril,Alán Aspuru-Guzik,Michael F. Toney,Zhenan Bao +10 more
TL;DR: A solution-processing technique in which lattice strain is used to increase charge carrier mobilities by introducing greater electron orbital overlap between the component molecules should aid the development of high-performance, low-cost organic semiconducting devices.
Journal ArticleDOI
Solution-processed ambipolar organic field-effect transistors and inverters.
Eduard J. Meijer,Eduard J. Meijer,Dago M. de Leeuw,Sepas Setayesh,E. van Veenendaal,Bart-Hendrik Huisman,Paul W. M. Blom,Jan C. Hummelen,Ullrich Scherf,T. M. Klapwijk +9 more
TL;DR: In this article, the authors demonstrate that hole transport and electron transport are both generic properties of organic semiconductors and combine the organic ambipolar transistors into functional CMOS-like inverters.