Molecular Self-Assembled Monolayers and Multilayers for Organic and Unconventional Inorganic Thin-Film Transistor Applications

Molecular Self-Assembled Monolayers and Multilayers for Organic and Unconventional Inorganic Thin-Film Transistor Applications

Principal goals in organic thin‐film transistor (OTFT) gate dielectric research include achieving: (i) low gate leakage currents and good chemical/thermal stability, (ii) minimized interface trap state densities to maximize charge transport efficiency, (iii) compatibility with both p‐ and n‐ channel...

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Bibliographic Details
Published in:Advanced materials (Weinheim) Vol. 21; no. 14-15; pp. 1407 - 1433
Main Authors: DiBenedetto, Sara A., Facchetti, Antonio, Ratner, Mark A., Marks, Tobin J.
Format: Journal Article
Language:English
Published: Weinheim WILEY-VCH Verlag 20-04-2009
WILEY‐VCH Verlag
Subjects:
carbon nanotubes
high-k dielectrics
self-assembled monolayers
thin films
transistors
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Summary:Principal goals in organic thin‐film transistor (OTFT) gate dielectric research include achieving: (i) low gate leakage currents and good chemical/thermal stability, (ii) minimized interface trap state densities to maximize charge transport efficiency, (iii) compatibility with both p‐ and n‐ channel organic semiconductors, (iv) enhanced capacitance to lower OTFT operating voltages, and (v) efficient fabrication via solution‐phase processing methods. In this Review, we focus on a prominent class of alternative gate dielectric materials: self‐assembled monolayers (SAMs) and multilayers (SAMTs) of organic molecules having good insulating properties and large capacitance values, requisite properties for addressing these challenges. We first describe the formation and properties of SAMs on various surfaces (metals and oxides), followed by a discussion of fundamental factors governing charge transport through SAMs. The last section focuses on the roles that SAMs and SAMTs play in OTFTs, such as surface treatments, gate dielectrics, and finally as the semiconductor layer in ultra‐thin OTFTs. The progress of self‐assembled monolayers (SAM) and nanodielectrics in improving organic and inorganic TFT performance is described in this paper. The fundamentals of SAM fabrication, and their electrical properties in basic two terminal devices (see figure) has enabled rapid progress in the fabrication of low voltage organic and inorganic TFTs, logic circuits, and ultra thin SAM‐based TFTs
Bibliography:ArticleID:ADMA200803267
AFOSR - No. FA9550-08-1-0331
ark:/67375/WNG-CP4JQ6Q1-K
ONR - No. N00014-02-1-0909
NSF-MRSEC - No. DMR-0520513
istex:F1BEDED1CC6CE8CF91EAF23A92A788BD4FCFB67F
ObjectType-Article-2
SourceType-Scholarly Journals-1
ObjectType-Feature-1
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ISSN:0935-9648
1521-4095
DOI:10.1002/adma.200803267