Development of tilted hexagonal platelet ZnO using atmospheric pressure chemical vapor deposition and investigation of its growth mechanism

Large area ZnO films (25×25 cm 2 ) grown via atmospheric pressure chemical vapor deposition (APCVD) showed unique surface morphologies of tilted hexagonal platelets. In response to the tilt angle change from 50° to 75°, haze values increased from 7% to 25%, indicating that tilt angles directly affec...

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Published in:Applied physics letters 2012-02, Vol.100 (6), p.061909-061909-3
Main Authors: Yoo, Y. Z., Kim, S. H., Yoon, G. S., Choi, E. H., Park, J.-W., Park, J. H., Kim, B.-G., Jung, S. C., Park, B. M.
Format: Article
Language:English
Subjects:
Atmospheric pressure
Barometric pressure
Camber
Chemical vapor deposition
Density
Oxidizers
Tilt
Zinc oxide
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cited_by cdi_FETCH-LOGICAL-c317t-7db96c10043709511ae38f39f7724cb9b9da80f88068659ccb9a95f747aad3683
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container_title Applied physics letters
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creator Yoo, Y. Z.
Kim, S. H.
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Park, B. M.
description Large area ZnO films (25×25 cm 2 ) grown via atmospheric pressure chemical vapor deposition (APCVD) showed unique surface morphologies of tilted hexagonal platelets. In response to the tilt angle change from 50° to 75°, haze values increased from 7% to 25%, indicating that tilt angles directly affected the light-trapping capabilities of films. These unique surfaces were created when H 2 O oxidizers were used, while powder-like ZnO formed when O 2 or O 3 oxidizers were used. Based on experimental results, corresponding density function theory, and thermodynamic calculations, the initial growth and property of APCVD for ZnO on glass were elucidated.
doi_str_mv 10.1063/1.3681163
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subjects Atmospheric pressure
Barometric pressure
Camber
Chemical vapor deposition
Density
Oxidizers
Tilt
Zinc oxide
title Development of tilted hexagonal platelet ZnO using atmospheric pressure chemical vapor deposition and investigation of its growth mechanism
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