Add to ORKGThe temperature effect on the Cu2O oxide morphology was investigated by oxidizing Cu(1 0 0) thin films at the temperature ranging from 150 to 1000 8C and constant oxygen partial pressure of 5 104 Torr. The evolution of the oxide island size and shape was followed inside an in situ ultrahigh vacuum transmission electron microscope (UHV TEM). Of particular interest, we find that the oxide morphology can be triangular, hut, rod or pyramid shaped depending only on the oxidation temperature
Thin films of copper oxide were grown by radio frequency-magnetron sputtering in an oxygen-argon env...
We studied the oxidation of Cu(410) using x-ray photoemission spectroscopy performed with synchrotro...
Copper oxide thin films with thickness of 0.45 μm were chemically deposited on glass substrates by d...
We investigated the temperature effect on the Cu2O morphology by oxidizing Cu(100) thin films at the...
To bridge the gap between information provided by surface science methods (adsorption of up to ~a fe...
International audienceControlled thermal oxidations of thin copper films at relatively lower tempera...
Controlled thermal oxidations of thin copper films at relatively lower temperatures (up to 500°C) le...
Abstract: We review our studies of the initial oxidation stages of Cu(001) thin films as investigate...
Electropolished samples of copper were kept in contact with dry oxygen under atmospheric pressure, a...
The role of temperature on the oxidation dynamics of Cu2O on ZnO (0001) was investigated during the ...
Previous studies of the initial stage of oxidation on clean single crystal of Cu(1 0 0) have been ex...
A detailed study of the oxidation of Cu substrates was carried out under controlled conditions by re...
tion pted ne 2 The initial oxidation behavior of Cu0.5Au0.5 (001) thin film was investigated by in s...
In situ ultrahigh vacuum (UHV) transmission electron microscopy (TEM) is utilized to study the therm...
The transient oxidation stage of a model metal alloy thin film was characterized with in situ ultra-...
Thin films of copper oxide were grown by radio frequency-magnetron sputtering in an oxygen-argon env...
We studied the oxidation of Cu(410) using x-ray photoemission spectroscopy performed with synchrotro...
Copper oxide thin films with thickness of 0.45 μm were chemically deposited on glass substrates by d...
We investigated the temperature effect on the Cu2O morphology by oxidizing Cu(100) thin films at the...
To bridge the gap between information provided by surface science methods (adsorption of up to ~a fe...
International audienceControlled thermal oxidations of thin copper films at relatively lower tempera...
Controlled thermal oxidations of thin copper films at relatively lower temperatures (up to 500°C) le...
Abstract: We review our studies of the initial oxidation stages of Cu(001) thin films as investigate...
Electropolished samples of copper were kept in contact with dry oxygen under atmospheric pressure, a...
The role of temperature on the oxidation dynamics of Cu2O on ZnO (0001) was investigated during the ...
Previous studies of the initial stage of oxidation on clean single crystal of Cu(1 0 0) have been ex...
A detailed study of the oxidation of Cu substrates was carried out under controlled conditions by re...
tion pted ne 2 The initial oxidation behavior of Cu0.5Au0.5 (001) thin film was investigated by in s...
In situ ultrahigh vacuum (UHV) transmission electron microscopy (TEM) is utilized to study the therm...
The transient oxidation stage of a model metal alloy thin film was characterized with in situ ultra-...
Thin films of copper oxide were grown by radio frequency-magnetron sputtering in an oxygen-argon env...
We studied the oxidation of Cu(410) using x-ray photoemission spectroscopy performed with synchrotro...
Copper oxide thin films with thickness of 0.45 μm were chemically deposited on glass substrates by d...