The surface groups created during plasma-assisted atomic layer deposition (ALD) of Al2O3 were studied by infrared spectroscopy. For temperatures in the range of 25–150 °C, –CH3 and –OH were unveiled as dominant surface groups after the Al(CH3)3precursor and O2 plasma half-cycles, respectively. At lower temperatures more –OH and C-related impurities were found to be incorporated in the Al2O3 film, but the impurity level could be reduced by prolonging the plasma exposure. The results demonstrate that –OH surface groups rule the surface chemistry of the Al2O3 process and likely that of plasma-assisted ALD of metal oxides from organometallic precursors in general
Multiple in situ diagnostics have been employed to study the reaction mechanism of plasma-assisted A...
Atmospheric-pressure plasma-enhanced spatial atomic layer deposition (PE-s-ALD) is considered a prom...
Multiple in situ diagnostics have been employed to study the reaction mechanism of plasma-assisted A...
The surface groups created during plasma-assisted atomic layer deposition (ALD) of Al2O3 were studie...
The surface groups created during plasma-assisted atomic layer deposition (ALD) of Al2O3 were studie...
The surface groups created during plasma-assisted atomic layer deposition (ALD) of Al2O3 were studie...
We have examined the role of substrate temperature on the surface reaction mechanisms during the ato...
We have examined the role of substrate temperature on the surface reaction mechanisms during the ato...
We have examined the role of substrate temperature on the surface reaction mechanisms during the ato...
We have examined the role of substrate temperature on the surface reaction mechanisms during the ato...
Atmospheric-pressure plasma-enhanced spatial atomic layer deposition (PE-s-ALD) is an emerging high-...
We have examined the role of substrate temperature on the surface reaction mechanisms during the ato...
We have examined the role of substrate temperature on the surface reaction mechanisms during the ato...
Atmospheric-pressure plasma-enhanced spatial atomic layer deposition (PE-s-ALD) is an emerging high-...
Atmospheric-pressure Plasma-Enhanced spatial Atomic Layer Deposition (PE-s-ALD) is a high-throughput...
Multiple in situ diagnostics have been employed to study the reaction mechanism of plasma-assisted A...
Atmospheric-pressure plasma-enhanced spatial atomic layer deposition (PE-s-ALD) is considered a prom...
Multiple in situ diagnostics have been employed to study the reaction mechanism of plasma-assisted A...
The surface groups created during plasma-assisted atomic layer deposition (ALD) of Al2O3 were studie...
The surface groups created during plasma-assisted atomic layer deposition (ALD) of Al2O3 were studie...
The surface groups created during plasma-assisted atomic layer deposition (ALD) of Al2O3 were studie...
We have examined the role of substrate temperature on the surface reaction mechanisms during the ato...
We have examined the role of substrate temperature on the surface reaction mechanisms during the ato...
We have examined the role of substrate temperature on the surface reaction mechanisms during the ato...
We have examined the role of substrate temperature on the surface reaction mechanisms during the ato...
Atmospheric-pressure plasma-enhanced spatial atomic layer deposition (PE-s-ALD) is an emerging high-...
We have examined the role of substrate temperature on the surface reaction mechanisms during the ato...
We have examined the role of substrate temperature on the surface reaction mechanisms during the ato...
Atmospheric-pressure plasma-enhanced spatial atomic layer deposition (PE-s-ALD) is an emerging high-...
Atmospheric-pressure Plasma-Enhanced spatial Atomic Layer Deposition (PE-s-ALD) is a high-throughput...
Multiple in situ diagnostics have been employed to study the reaction mechanism of plasma-assisted A...
Atmospheric-pressure plasma-enhanced spatial atomic layer deposition (PE-s-ALD) is considered a prom...
Multiple in situ diagnostics have been employed to study the reaction mechanism of plasma-assisted A...