Publikation: Nanoarchitecture Effects on Persistent Room Temperature Photoconductivity and Thermal Conductivity in Ceramic Semiconductors: Mesoporous, Yolk–Shell, and Hollow ZnO Spheres
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2014
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Wagner, Markus R.
Reparaz, Juan S.
Sotomayor Torres, Clivia M.
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Crystal Growth & Design. 2014, 14(9), pp. 4593-4601. ISSN 1528-7483. eISSN 1528-7505. Available under: doi: 10.1021/cg500680g
Zusammenfassung
A gas-phase approach is applied to synthesize a set of spherical particles with mesoporous, yolk−shell, or hollow character. A special arrangement of the ZnO lattice results in a polar character of the particle shell, and this facilitates effective separation of electrons and holes on different sides of the interface.
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DILGER, Stefan, Martin WESSIG, Markus R. WAGNER, Juan S. REPARAZ, Clivia M. SOTOMAYOR TORRES, Qijun LIANG, Thomas DEKORSY, Sebastian POLARZ, 2014. Nanoarchitecture Effects on Persistent Room Temperature Photoconductivity and Thermal Conductivity in Ceramic Semiconductors: Mesoporous, Yolk–Shell, and Hollow ZnO Spheres. In: Crystal Growth & Design. 2014, 14(9), pp. 4593-4601. ISSN 1528-7483. eISSN 1528-7505. Available under: doi: 10.1021/cg500680gBibTex
@article{Dilger2014Nanoa-29110,
year={2014},
doi={10.1021/cg500680g},
title={Nanoarchitecture Effects on Persistent Room Temperature Photoconductivity and Thermal Conductivity in Ceramic Semiconductors: Mesoporous, Yolk–Shell, and Hollow ZnO Spheres},
number={9},
volume={14},
issn={1528-7483},
journal={Crystal Growth & Design},
pages={4593--4601},
author={Dilger, Stefan and Wessig, Martin and Wagner, Markus R. and Reparaz, Juan S. and Sotomayor Torres, Clivia M. and Liang, Qijun and Dekorsy, Thomas and Polarz, Sebastian}
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