Abstract

Zinc oxide nanoparticles (ZnO NP) used for the channel region in inverted coplanar setup in Thin Film Transistors (TFT) were the focus of this study. The regions between the source electrode and the ZnO NP and the drain electrode were under investigation as they produce a Schottky barrier in metal-semiconductor interfaces. A more general Thermionic emission theory must be evaluated: one that considers both metal/semiconductor interfaces (MSM structures). Aluminum, gold, and nickel were used as metallization layers for source and drain electrodes. An organic-inorganic nanocomposite was used as a gate dielectric. The TFTs transfer and output characteristics curves were extracted, and a numerical computational program was used for fitting the data; hence information about Schottky Barrier Height (SBH) and ideality factors for each TFT could be estimated. The nickel metallization appears with the lowest SBH among the metals investigated. For this metal and for higher drain-to-source voltages, the SBH tended to converge to some value around 0.3 eV. The developed fitting method showed good fitting accuracy even when the metallization produced different SBH in each metal-semiconductor interface, as was the case for gold metallization. The Schottky effect is also present and was studied when the drain-to-source voltages and/or the gate voltage were increased.

Highlights

  • Integrated electronic devices produced on flexible and transparent substrates are responsible for a number of innovative modern products, such as displays, radio frequency identification (RFID) tags, wearable electronics, and sensors

  • Many studies focus on common transistor parameters such as charge mobility, subthreshold swing (SS), turn-on voltage (Von ), threshold voltage (Vth ), and the ratio of the current in the on and off state (Ion /Ioff ) [4], less deal with the Schottky contact and how it affects Thin Film Transistors (TFT) performance

  • We present a study of how the Schottky contact between different metals and the Zinc oxide nanoparticles (ZnO NP) n-type layer affects the TFT operation

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Summary

A Study about Schottky Barrier Height and Ideality Factor in

Ivan Rodrigo Kaufmann 1,2, *, Onur Zerey 1 , Thorsten Meyers 1 , Julia Reker 1 , Fábio Vidor 3 and Ulrich Hilleringmann 1. CAPES, Coordenação de Aperfeiçoamento de Pessoal de Nível Superior, Brasilia 70040-020, Brazil

Introduction
Materials and Methods
Vother
The first noticeable aspect
Corresponding output curves of the TFTs from 2 with different voltage
K total current isRichardson a function not only of VDS butAalso
Schottky barrier height for source both source andNi drain
Conclusions

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