Resolving Bulk and Grain Boundary Transport Properties of TiO sub(2) Thin Films Enabled by Laser-Induced Anisotropic Morphology

Precise deconvolution of grain and grain boundary contributions to the overall impedance of TiO sub(2) thin films is achieved by impedance spectroscopy measurements of textured films with elongated grains obtained by laser-induced melting and sequential lateral solidification. The ability to enginee...

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Veröffentlicht in:	Advanced materials (Weinheim) 2011-08, Vol.23 (29), p.3266-3271
Hauptverfasser:	Ankonina, Guy, Chung, Ui-Jin, Chitu, Adrian M, Komem, Yigal, Rothschild, Avner
Format:	Artikel
Sprache:	eng
Schlagworte:	Anisotropy Devices Grain boundaries Grains Microactuators Morphology Thin films Titanium dioxide
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creator	Ankonina, Guy Chung, Ui-Jin Chitu, Adrian M Komem, Yigal Rothschild, Avner
description	Precise deconvolution of grain and grain boundary contributions to the overall impedance of TiO sub(2) thin films is achieved by impedance spectroscopy measurements of textured films with elongated grains obtained by laser-induced melting and sequential lateral solidification. The ability to engineer the grain morphology of electroceramic films provides opportunities for new designs of ferroelectric memories, piezoelectric microsensors and microactuators, optical waveguides, and other devices.
doi_str_mv	10.1002/adma.201100917
format	Article
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language	eng
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source	Wiley Online Library
subjects	Anisotropy Devices Grain boundaries Grains Microactuators Morphology Thin films Titanium dioxide
title	Resolving Bulk and Grain Boundary Transport Properties of TiO sub(2) Thin Films Enabled by Laser-Induced Anisotropic Morphology
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