Self-catalytic crystal growth, formation mechanism, and optical properties of indium tin oxide nanostructures.
Identifieur interne : 000411 ( Main/Exploration ); précédent : 000410; suivant : 000412Self-catalytic crystal growth, formation mechanism, and optical properties of indium tin oxide nanostructures.
Auteurs : RBID : pubmed:23965167Abstract
In-Sn-O nanostructures with rectangular cross-sectional rod-like, sword-like, and bowling pin-like morphologies were successfully synthesized through self-catalytic growth. Mixed metallic In and Sn powders were used as source materials, and no catalyst layer was pre-coated on the substrates. The distance between the substrate and the source materials affected the size of the Sn-rich alloy particles during crystal growth in a quartz tube. This caused In-Sn-O nanostructures with various morphologies to form. An X-ray photoelectron spectroscope and a transmittance electron microscope with an energy-dispersive X-ray spectrometer were used to investigate the elemental binding states and compositions of the as-synthesized nanostructures. The Sn doping and oxygen vacancies in the In2O3 crystals corresponded to the blue-green and yellow-orange emission bands of the nanostructures, respectively.
DOI: 10.1186/1556-276X-8-358
PubMed: 23965167
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<author><name sortKey="Liang, Yuan Chang" uniqKey="Liang Y">Yuan-Chang Liang</name>
<affiliation wicri:level="1"><nlm:affiliation>Institute of Materials Engineering, National Taiwan Ocean University, Keelung 20224, Taiwan. yuanvictory@gmail.com.</nlm:affiliation>
<country xml:lang="fr">République de Chine (Taïwan)</country>
<wicri:regionArea>Institute of Materials Engineering, National Taiwan Ocean University, Keelung 20224</wicri:regionArea>
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<author><name sortKey="Zhong, Hua" uniqKey="Zhong H">Hua Zhong</name>
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<front><div type="abstract" xml:lang="en">In-Sn-O nanostructures with rectangular cross-sectional rod-like, sword-like, and bowling pin-like morphologies were successfully synthesized through self-catalytic growth. Mixed metallic In and Sn powders were used as source materials, and no catalyst layer was pre-coated on the substrates. The distance between the substrate and the source materials affected the size of the Sn-rich alloy particles during crystal growth in a quartz tube. This caused In-Sn-O nanostructures with various morphologies to form. An X-ray photoelectron spectroscope and a transmittance electron microscope with an energy-dispersive X-ray spectrometer were used to investigate the elemental binding states and compositions of the as-synthesized nanostructures. The Sn doping and oxygen vacancies in the In2O3 crystals corresponded to the blue-green and yellow-orange emission bands of the nanostructures, respectively.</div>
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<Abstract><AbstractText>In-Sn-O nanostructures with rectangular cross-sectional rod-like, sword-like, and bowling pin-like morphologies were successfully synthesized through self-catalytic growth. Mixed metallic In and Sn powders were used as source materials, and no catalyst layer was pre-coated on the substrates. The distance between the substrate and the source materials affected the size of the Sn-rich alloy particles during crystal growth in a quartz tube. This caused In-Sn-O nanostructures with various morphologies to form. An X-ray photoelectron spectroscope and a transmittance electron microscope with an energy-dispersive X-ray spectrometer were used to investigate the elemental binding states and compositions of the as-synthesized nanostructures. The Sn doping and oxygen vacancies in the In2O3 crystals corresponded to the blue-green and yellow-orange emission bands of the nanostructures, respectively.</AbstractText>
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