Exclusive formation of SnO by low temperature single-source AACVD

Thomas Wildsmith, Michael S. Hill, Andrew L. Johnson, Andrew J. Kingsley, Kieran C. Molloy

Research output: Contribution to journalArticle

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Abstract

An easily synthesised Sn(ii) bis(ureide) derivative is shown to be a single-source precursor for the aerosol-assisted CVD of SnO, providing unprecedented levels of oxidation state control at temperatures as low as 250 °C.
LanguageEnglish
Pages8773-8775
Number of pages3
JournalChemical communications (Cambridge, England)
Volume49
Issue number78
Early online date15 Aug 2013
DOIs
StatusPublished - 9 Oct 2013

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Aerosols
Chemical vapor deposition
Derivatives
Oxidation
Temperature

Cite this

Exclusive formation of SnO by low temperature single-source AACVD. / Wildsmith, Thomas; Hill, Michael S.; Johnson, Andrew L.; Kingsley, Andrew J.; Molloy, Kieran C.

In: Chemical communications (Cambridge, England), Vol. 49, No. 78, 09.10.2013, p. 8773-8775.

Research output: Contribution to journalArticle

Wildsmith, Thomas ; Hill, Michael S. ; Johnson, Andrew L. ; Kingsley, Andrew J. ; Molloy, Kieran C. / Exclusive formation of SnO by low temperature single-source AACVD. In: Chemical communications (Cambridge, England). 2013 ; Vol. 49, No. 78. pp. 8773-8775.
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