Volcanic Eruption in the Nanoworld: Efficient Oxygen Exchange at the Si/SnO2 Interface (Small 35/2024)

Oxygen Exchange The link between the macro‐ and nanoworld is one of the most important aspects of modern nanoscience. A unique phenomenon related to the effective oxygen exchange between SnO2 and Si surface, resembling a natural volcanic process and occurring at the nanoscale during the growth of a...

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Veröffentlicht in:	Small (Weinheim an der Bergstrasse, Germany) Germany), 2024-08, Vol.20 (35), p.n/a
Hauptverfasser:	Liu, Poting, Makarova, Anna, Freiberg, Katharina, Grinter, David C., Sharma, Divanshu, Ferrer, Pilar, Chuvenkova, Olga, Deckert‐Gaudig, Tanja, Turishchev, Sergey, Lippmann, Stephanie, Sivakov, Vladimir
Format:	Artikel
Sprache:	eng
Schlagworte:	Exchanging Interface stability Oxygen silicon Surface stability synchrotron thermodynamic Tin dioxide tin oxides Volcanic eruptions volcano
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creator	Liu, Poting Makarova, Anna Freiberg, Katharina Grinter, David C. Sharma, Divanshu Ferrer, Pilar Chuvenkova, Olga Deckert‐Gaudig, Tanja Turishchev, Sergey Lippmann, Stephanie Sivakov, Vladimir
description	Oxygen Exchange The link between the macro‐ and nanoworld is one of the most important aspects of modern nanoscience. A unique phenomenon related to the effective oxygen exchange between SnO2 and Si surface, resembling a natural volcanic process and occurring at the nanoscale during the growth of a layer of SnO2 due to the thermodynamic instability of the system, has been discovered. More in article number 2404508, Vladimir Sivakov and co‐workers.
doi_str_mv	10.1002/smll.202470263
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subjects	Exchanging Interface stability Oxygen silicon Surface stability synchrotron thermodynamic Tin dioxide tin oxides Volcanic eruptions volcano
title	Volcanic Eruption in the Nanoworld: Efficient Oxygen Exchange at the Si/SnO2 Interface (Small 35/2024)
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