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Atomic layer deposition of ultrathin Cu2O and subsequent reduction to Cu studied by in situ x-ray photoelectron spectroscopy

 
: Dhakal, D.; Assim, K.; Lang, H.; Bruener, P.; Grehl, T.; Georgi, C.; Waechtler, T.; Ecke, R.; Schulz, S.E.; Gessner, T.

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Journal of vacuum science and technology A. Vacuum, surfaces and films 34 (2016), No.1, Art. 01A111, 12 pp.
ISSN: 0734-2101
English
Journal Article
Fraunhofer ENAS ()

Abstract
The growth of ultrathin (<5 nm) Ru-doped Cu 2O films deposited on SiO2 by atomic layer deposition (ALD) and Cu films by subsequent reduction of the Cu 2O using HCO2H or CO is reported. Ru-doped Cu 2O has been deposited by a mixture of 16: 99 mol. % of [( n Bu3P)2Cu(acac)] as Cu precursor and 17: 1 mol. % of [Ru(η 5-C7H11)(η 5-C5H4SiMe3)] as Ru precursor. The catalytic amount of Ru precursor was to support low temperature reduction of Cu 2O to metallic Cu by formic acid (HCO2H) on arbitrary substrate. In situ x-ray photoelectron spectroscopy investigations of the Cu 2O ALD film indicated nearly 1 at. % of carbon contamination and a phosphorous contamination below the detection limit after sputter cleaning. Systematic investigations of the reduction of Ru-doped Cu 2O to metallic Cu by HCO2H or CO as reducing agents are described. Following the ALD of 3.0 nm Cu 2O, the ultrathin films are reduced between 100 and 160 °C. The use of HCO2H at 110 °C enabled the reduction of around 90% Cu 2O. HCO2H is found to be very effective in the removal of oxygen from Ru-doped Cu 2O films with 2.5–4.7 nm thickness. In contrast, CO was effective for the removal of oxygen from the Cu 2O films only below 3.0 nm at 145 °C. Root mean square surface roughness of 0.4 ± 0.1 nm was observed from atomic force microscopy (AFM) investigations after the ALD of Cu 2O, followed by the subsequent reduction of 3.0 nm Cu 2O using either HCO2H at 110 °C or CO at 145 °C on SiO2. Furthermore, ex situ low energy ion scattering and AFM investigations confirmed that the Cu 2O film after ALD and Cu films after subsequent reduction was continuous on the SiO2 substrate.

: http://publica.fraunhofer.de/documents/N-364253.html