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Literature DB >> 25651811

Stable low-voltage operation top-gate organic field-effect transistors on cellulose nanocrystal substrates.

Cheng-Yin Wang¹, Canek Fuentes-Hernandez, Jen-Chieh Liu, Amir Dindar, Sangmoo Choi, Jeffrey P Youngblood, Robert J Moon, Bernard Kippelen.

Abstract

We report on the performance and the characterization of top-gate organic field-effect transistors (OFETs), comprising a bilayer gate dielectric of CYTOP/Al2O3 and a solution-processed semiconductor layer made of a blend of TIPS-pentacene:PTAA, fabricated on recyclable cellulose nanocrystal-glycerol (CNC/glycerol) substrates. These OFETs exhibit low operating voltage, low threshold voltage, an average field-effect mobility of 0.11 cm(2)/(V s), and good shelf and operational stability in ambient conditions. To improve the operational stability in ambient a passivation layer of Al2O3 is grown by atomic layer deposition (ALD) directly onto the CNC/glycerol substrates. This layer protects the organic semiconductor layer from moisture and other chemicals that can either permeate through or diffuse out of the substrate.

Entities: Chemical Disease

Keywords: ambient stability; cellulose; low-voltage; organic field-effect transistor; top-gate geometry

Year: 2015 PMID： 25651811 DOI： 10.1021/am508723a

Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN： 1944-8244 Impact factor: 9.229

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Cited

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5. Intrinsically ionic conductive cellulose nanopapers applied as all solid dielectrics for low voltage organic transistors.

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