Add to ORKGIn situ ultrahigh vacuum (UHV) transmission electron microscopy (TEM) is utilized to study the thermal reduction of Cu2O nanoislands on Cu(100) surfaces. A linear decay behavior of the oxide islands is noted from in situ visualization of the oxide reduction. Complete reduction of the oxide islands leads to the formation of surface craters. Kinetic Monte Carlo (KMC) simulations are employed to elucidate the growth processes of the surface craters
The energetics and kinetics of the missing-row reconstruction (MRR) and missing-row island formation...
Understanding the oxidation and reduction mechanisms of catalytically active transition metal nanopa...
We studied the oxidation of Cu(410) using high-resolution electron energy loss spectroscopy and X-ra...
To bridge the gap between information provided by surface science methods (adsorption of up to ~a fe...
We investigated the temperature effect on the Cu2O morphology by oxidizing Cu(100) thin films at the...
The temperature effect on the Cu2O oxide morphology was investigated by oxidizing Cu(1 0 0) thin fil...
Abstract: We review our studies of the initial oxidation stages of Cu(001) thin films as investigate...
Previous studies of the initial stage of oxidation on clean single crystal of Cu(1 0 0) have been ex...
We report in situ transmission electron microscopy dynamic observations of the early stage oxidation...
International audienceDespite the broad relevance of copper nanoparticles in industrial applications...
Active catalytic sites have traditionally been analyzed based on static representations of surface s...
Photocatalytic reactions on the surface of cuprous oxide (Cu2O) depend on the atomic scale structure...
Elucidating the oxidation mechanism of alloy has significant practical and theoretical impact. The a...
Intense research efforts are directed toward Cu and Cu2O based catalysts as they are viewed as poten...
The Cu<sub>2</sub>O(100) surface is most favorably terminated by a (3,0;1,1) reconstruction under u...
The energetics and kinetics of the missing-row reconstruction (MRR) and missing-row island formation...
Understanding the oxidation and reduction mechanisms of catalytically active transition metal nanopa...
We studied the oxidation of Cu(410) using high-resolution electron energy loss spectroscopy and X-ra...
To bridge the gap between information provided by surface science methods (adsorption of up to ~a fe...
We investigated the temperature effect on the Cu2O morphology by oxidizing Cu(100) thin films at the...
The temperature effect on the Cu2O oxide morphology was investigated by oxidizing Cu(1 0 0) thin fil...
Abstract: We review our studies of the initial oxidation stages of Cu(001) thin films as investigate...
Previous studies of the initial stage of oxidation on clean single crystal of Cu(1 0 0) have been ex...
We report in situ transmission electron microscopy dynamic observations of the early stage oxidation...
International audienceDespite the broad relevance of copper nanoparticles in industrial applications...
Active catalytic sites have traditionally been analyzed based on static representations of surface s...
Photocatalytic reactions on the surface of cuprous oxide (Cu2O) depend on the atomic scale structure...
Elucidating the oxidation mechanism of alloy has significant practical and theoretical impact. The a...
Intense research efforts are directed toward Cu and Cu2O based catalysts as they are viewed as poten...
The Cu<sub>2</sub>O(100) surface is most favorably terminated by a (3,0;1,1) reconstruction under u...
The energetics and kinetics of the missing-row reconstruction (MRR) and missing-row island formation...
Understanding the oxidation and reduction mechanisms of catalytically active transition metal nanopa...
We studied the oxidation of Cu(410) using high-resolution electron energy loss spectroscopy and X-ra...