Toward a Systematic Understanding of Photodetectors Based on Individual Metal Oxide Nanowires

Joan Daniel Prades; R. Jiménez-Díaz; Francisco Hernández-Ramírez; Luis Fernández; Teresa Andreu; A. Cirera; A. Romano‐Rodrı́guez; A. Cornet; J.R. Morante; Sven Barth; Sanjay Mathur

doi:10.1021/jp804614q

Toward a Systematic Understanding of Photodetectors Based on Individual Metal Oxide Nanowires

Joan Daniel Prades(Leibniz-Institute for New Materials), R. Jiménez-Díaz(University of Cologne), Francisco Hernández-Ramírez(University of Cologne), Luis Fernández(Universitat de Barcelona), Teresa Andreu(Leibniz-Institute for New Materials), A. Cirera(Leibniz-Institute for New Materials), A. Romano‐Rodrı́guez(University of Cologne), A. Cornet(Leibniz-Institute for New Materials), J.R. Morante(Universitat de Barcelona), Sven Barth(University of Cologne), Sanjay Mathur(University of Cologne)

The Journal of Physical Chemistry C

August 22, 2008

10.1021/jp804614q

Cited by 132

Abstract

We present a set of criteria to optimize photodetectors based on n-type metal oxide nanowires and a comparison methodology capable of overcoming the present lack of systematic studies dealing with such devices. The response of photoconductors is enhanced following different fabrication strategies, such as diminishing the distance between the electrical contacts, increasing the width of the photoactive area, or improving the electrical mobility of the nanomaterials. The validity of the theoretical background is verified by experimental results obtained with devices based on ZnO nanowires. The performances of our devices show that the normalized gain of single ZnO nanowire-based photodetectors exceeds those of thin films.

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