The kinetics of synthesis gas conversion on the stepped Rh(211) surface were investigated by computational methods. DFT calculations were performed to determine the reaction energetics for all elementary reaction steps relevant to the conversion of CO into methane, ethylene, ethane, formaldehyde, methanol, acetaldehyde, and ethanol. Microkinetics simulations were carried out based on these first-principles data to predict the CO consumption rate and the product distribution as function of temperature. The elementary reaction steps that control the CO consumption rate and the selectivity were analyzed in detail. Ethanol formation can only occur on the stepped surface, because the barrier for CO dissociation on Rh terraces is too high; step-e...
MoS2 is a potential catalyst for the conversion of synthesis gas obtained from different carbon-cont...
In this article, we demonstrate how first-principles calculations can be effectively employed in the...
In this study, a practical strategy to develop a microkinetic model for methanol synthesis from syng...
The kinetics of synthesis gas conversion on the stepped Rh(211) surface were investigated by computa...
The kinetics of synthesis gas conversion on the stepped Rh(211) surface were investigated by computa...
Predictive-quality computational modeling of heterogeneously catalyzed reactions has emerged as an i...
Predictive-quality computational modeling of heterogeneously catalyzed reactions has emerged as an i...
Synthesis gas (CO + H<sub>2</sub>) conversion is a promising route to converting coal, natural gas, ...
In the present computational study, we investigate the competitive reaction pathways for the convers...
Ethanol dry reformation (EDR) is a chemical process for syngas production, which consumes a greenhou...
Three different pathways toward CO formation from adsorbed CH and O are compared by quantum-chemical...
The U.S. Department of Energy is conducting a program focused on developing a process for the conver...
Predictive-quality computational modeling of heterogeneously catalyzed reactions has emerged as an i...
MoS2 is a potential catalyst for the conversion of synthesis gas obtained from different carbon-cont...
MoS2 is a potential catalyst for the conversion of synthesis gas obtained from different carbon-cont...
In this article, we demonstrate how first-principles calculations can be effectively employed in the...
In this study, a practical strategy to develop a microkinetic model for methanol synthesis from syng...
The kinetics of synthesis gas conversion on the stepped Rh(211) surface were investigated by computa...
The kinetics of synthesis gas conversion on the stepped Rh(211) surface were investigated by computa...
Predictive-quality computational modeling of heterogeneously catalyzed reactions has emerged as an i...
Predictive-quality computational modeling of heterogeneously catalyzed reactions has emerged as an i...
Synthesis gas (CO + H<sub>2</sub>) conversion is a promising route to converting coal, natural gas, ...
In the present computational study, we investigate the competitive reaction pathways for the convers...
Ethanol dry reformation (EDR) is a chemical process for syngas production, which consumes a greenhou...
Three different pathways toward CO formation from adsorbed CH and O are compared by quantum-chemical...
The U.S. Department of Energy is conducting a program focused on developing a process for the conver...
Predictive-quality computational modeling of heterogeneously catalyzed reactions has emerged as an i...
MoS2 is a potential catalyst for the conversion of synthesis gas obtained from different carbon-cont...
MoS2 is a potential catalyst for the conversion of synthesis gas obtained from different carbon-cont...
In this article, we demonstrate how first-principles calculations can be effectively employed in the...
In this study, a practical strategy to develop a microkinetic model for methanol synthesis from syng...