Studies on solid state reactions of atomic layer deposited thin films of lithium carbonate with hafnia and zirconia

In this paper, results on the solid state reactions of atomic layer deposited Li2CO3 with HfO2 and ZrO2 are reported. An Li2CO3 film was deposited on top of hafnia and zirconia, and the stacks were annealed at various temperatures in air to remove the carbonate and facilitate lithium diffusion into...

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Veröffentlicht in:	Journal of vacuum science & technology. A, Vacuum, surfaces, and films Vacuum, surfaces, and films, 2019-03, Vol.37 (2)
Hauptverfasser:	Mäntymäki, Miia, Atosuo, Elisa, Heikkilä, Mikko J., Vehkamäki, Marko, Mattinen, Miika, Mizohata, Kenichiro, Räisänen, Jyrki, Ritala, Mikko, Leskelä, Markku
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container_title	Journal of vacuum science & technology. A, Vacuum, surfaces, and films
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creator	Mäntymäki, Miia Atosuo, Elisa Heikkilä, Mikko J. Vehkamäki, Marko Mattinen, Miika Mizohata, Kenichiro Räisänen, Jyrki Ritala, Mikko Leskelä, Markku
description	In this paper, results on the solid state reactions of atomic layer deposited Li2CO3 with HfO2 and ZrO2 are reported. An Li2CO3 film was deposited on top of hafnia and zirconia, and the stacks were annealed at various temperatures in air to remove the carbonate and facilitate lithium diffusion into the oxides. It was found that Li+ ions are mobile in hafnia and zirconia at high temperatures, diffusing to the film–substrate interface and forming silicates with the Si substrate during heating. Based on grazing incidence x-ray diffraction experiments, no changes in the oxide phases take place during this process. Field emission scanning electron microscopy images reveal that some surface defects are formed on the transition metal oxide surfaces during lithium diffusion. The authors also show that lithium can diffuse through hafnia and react with a potential lithium-ion battery electrode material TiO2 residing below the HfO2 layer, forming Li2TiO3.
doi_str_mv	10.1116/1.5081494
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title	Studies on solid state reactions of atomic layer deposited thin films of lithium carbonate with hafnia and zirconia
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