Metal-organic CVD of Y2O3 Thin Films using Yttrium tris-amidinates

Thin films of Y2O3 are deposited on Si(100) and Al2O3 (0001) substrates via metal‐organic (MO)CVD for the first time using two closely related yttrium tris‐amidinate compounds as precursors in the presence of oxygen in the temperature range 400–700 °C. The structural, morphological, and compositiona...

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Veröffentlicht in:	Chemical vapor deposition 2015-12, Vol.21 (10-11-12), p.335-342
Hauptverfasser:	Karle, Sarah, Dang, Van-Son, Prenzel, Marina, Rogalla, Detlef, Becker, Hans-Werner, Devi, Anjana
Format:	Artikel
Sprache:	eng
Schlagworte:	Amidinates Crystallinity MOCVD Thin films Y2O3
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container_title	Chemical vapor deposition
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creator	Karle, Sarah Dang, Van-Son Prenzel, Marina Rogalla, Detlef Becker, Hans-Werner Devi, Anjana
description	Thin films of Y2O3 are deposited on Si(100) and Al2O3 (0001) substrates via metal‐organic (MO)CVD for the first time using two closely related yttrium tris‐amidinate compounds as precursors in the presence of oxygen in the temperature range 400–700 °C. The structural, morphological, and compositional features of the films are investigated in detail. At deposition temperatures of 500 °C and higher both the precursors yield polycrystalline Y2O3 thin films in the cubic phase. The compositional analysis revealed the formation of nearly stoichiometric Y2O3. The optical band gaps are estimated using UV‐Vis spectroscopy. Preliminary electrical measurements are performed in the form of a metal oxide semiconductor (MOS) structure of Al/Y2O3/p‐Si/Ag. Leakage currents and dielectric constants are also determined. Y2O3 thin films are grown by MOCVD at 400–700 °C using yttrium amidinate presursors in the presence of oxygen. The films, which are polycrystalline in case of deposition temperatures > 400 °C, are dense and exhibit good purity and homogeneity.
doi_str_mv	10.1002/cvde.201507189
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The structural, morphological, and compositional features of the films are investigated in detail. At deposition temperatures of 500 °C and higher both the precursors yield polycrystalline Y2O3 thin films in the cubic phase. The compositional analysis revealed the formation of nearly stoichiometric Y2O3. The optical band gaps are estimated using UV‐Vis spectroscopy. Preliminary electrical measurements are performed in the form of a metal oxide semiconductor (MOS) structure of Al/Y2O3/p‐Si/Ag. Leakage currents and dielectric constants are also determined. Y2O3 thin films are grown by MOCVD at 400–700 °C using yttrium amidinate presursors in the presence of oxygen. 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Vap. Deposition</addtitle><date>2015-12</date><risdate>2015</risdate><volume>21</volume><issue>10-11-12</issue><spage>335</spage><epage>342</epage><pages>335-342</pages><issn>0948-1907</issn><eissn>1521-3862</eissn><abstract>Thin films of Y2O3 are deposited on Si(100) and Al2O3 (0001) substrates via metal‐organic (MO)CVD for the first time using two closely related yttrium tris‐amidinate compounds as precursors in the presence of oxygen in the temperature range 400–700 °C. The structural, morphological, and compositional features of the films are investigated in detail. At deposition temperatures of 500 °C and higher both the precursors yield polycrystalline Y2O3 thin films in the cubic phase. The compositional analysis revealed the formation of nearly stoichiometric Y2O3. The optical band gaps are estimated using UV‐Vis spectroscopy. Preliminary electrical measurements are performed in the form of a metal oxide semiconductor (MOS) structure of Al/Y2O3/p‐Si/Ag. Leakage currents and dielectric constants are also determined. Y2O3 thin films are grown by MOCVD at 400–700 °C using yttrium amidinate presursors in the presence of oxygen. The films, which are polycrystalline in case of deposition temperatures > 400 °C, are dense and exhibit good purity and homogeneity.</abstract><pub>Blackwell Publishing Ltd</pub><doi>10.1002/cvde.201507189</doi><tpages>8</tpages></addata></record>
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subjects	Amidinates Crystallinity MOCVD Thin films Y2O3
title	Metal-organic CVD of Y2O3 Thin Films using Yttrium tris-amidinates
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