Nickel-based catalysts play an important role in the chemical transformation of CO2. A fundamental understanding of the interaction between CO2 and Ni surfaces at atomic level is necessary. In this study, the interfacial reactions of CO2 and CO2 + H2O mixture on Ni(111) as well Ni(100) surfaces were investigated using ambient pressure X-ray photoelectron spectroscopy as well as theoretical calculations. The results indicate that the distributions of dissociation products are very different on the Ni(111) and Ni(100) surfaces. Carbonate, CO, and graphitic carbon formed on both Ni(111) and Ni(100) surfaces in the presence of 0.2 Torr CO2. However, more than 90% adsorption species on the Ni(111) surface is the carbonate, whereas the Ni(100) su...
The CO/H coadsorption on the Ni(100) surface is discussed in this study. Relative stabilities of var...
We have used spin polarized density functional theory calculations to perform extensive mechanistic ...
Carbon deposition on Ni-based catalysts has a significant influence on their cracking activity and s...
Nickel-based catalysts play an important role in the chemical transformation of CO2. A fundamental u...
We present a combined experimental and theoretical study of the CO(2) interaction with the Ni(110) s...
We present a combined experimental and theoretical study of the CO(2) interaction with the Ni(110) s...
The chemistry of carbon dioxide has recently become of great interest both for technological and env...
We demonstrate that the key step for the reaction of CO2 with hydrogen on Ni(110) is a change of the...
We demonstrate that the key step for the reaction of CO2 with hydrogen on Ni(110) is a change of the...
We demonstrate that the key step for the reaction of CO2 with hydrogen on Ni(110) is a change of the...
We performed a combined experimental and theoretical study of CO2 adsorption on the Ni(110) surface ...
This paper presents a systematic comparison study of the surface redox reaction mechanism for revers...
The interaction of CO, CO2, CO+H2, CO2+H2, and CO+CO2+H2 with the nickel (110) single crystal termin...
The conversion and utilization of CO2 are not only an important research subject in C, chemistry, bu...
Density function theory has been used to describe the adsorption of C, O and CO on a Ni(111) surface...
The CO/H coadsorption on the Ni(100) surface is discussed in this study. Relative stabilities of var...
We have used spin polarized density functional theory calculations to perform extensive mechanistic ...
Carbon deposition on Ni-based catalysts has a significant influence on their cracking activity and s...
Nickel-based catalysts play an important role in the chemical transformation of CO2. A fundamental u...
We present a combined experimental and theoretical study of the CO(2) interaction with the Ni(110) s...
We present a combined experimental and theoretical study of the CO(2) interaction with the Ni(110) s...
The chemistry of carbon dioxide has recently become of great interest both for technological and env...
We demonstrate that the key step for the reaction of CO2 with hydrogen on Ni(110) is a change of the...
We demonstrate that the key step for the reaction of CO2 with hydrogen on Ni(110) is a change of the...
We demonstrate that the key step for the reaction of CO2 with hydrogen on Ni(110) is a change of the...
We performed a combined experimental and theoretical study of CO2 adsorption on the Ni(110) surface ...
This paper presents a systematic comparison study of the surface redox reaction mechanism for revers...
The interaction of CO, CO2, CO+H2, CO2+H2, and CO+CO2+H2 with the nickel (110) single crystal termin...
The conversion and utilization of CO2 are not only an important research subject in C, chemistry, bu...
Density function theory has been used to describe the adsorption of C, O and CO on a Ni(111) surface...
The CO/H coadsorption on the Ni(100) surface is discussed in this study. Relative stabilities of var...
We have used spin polarized density functional theory calculations to perform extensive mechanistic ...
Carbon deposition on Ni-based catalysts has a significant influence on their cracking activity and s...