Add to ORKGThe catalytic performance of Mo8V2Nb1-based mixed-oxide catalysts for ethane partial oxidation is highly sensitive to the doping of elements with redox and acid functionality. Specifically, control over product distributions to ethylene and acetic acid can be afforded via the specific pairing of redox elements (Pd, Ni, Ti) and acid elements (K, Cs, Te) and the levels at which these elements are doped. The redox element, acid element, redox/acid ratio, and dopant/host ratio were investigated using a three-level, four-factor factorial screening design to establish relationships between catalyst composition, structure, and product distribution for ethane partial oxidation. Results show that the balance between redox and acid functionality and ...
Catalytic oxidation of ethane is studied intensively in the scientific literature, but it is still f...
New MoVTeNb multi-component catalysts (so-called M1 phase) were designed and tested using combinator...
The influence of niobium and/or palladium in MoV0.4Ox on both solid state chemistry and catalytic pr...
The catalytic performance of Mo8V2Nb1-based mixed-oxide catalysts for ethane partial oxidation is hi...
The catalytic performance of Mo8V2Nb1-based mixed-oxide catalysts for ethane partial oxidation is hi...
AbstractCatalysts based on Mo, V, Nb mixed oxides can effect the partial oxidation of ethane to acet...
AbstractThis review paper presents an overview of heterogeneous selective ammoxidation and oxidative...
This document is the Accepted Manuscript version of a Published Work that appeared in final form in ...
Ethane oxidative dehydrogenation (ODH) is an alternative route for ethene production. Crystalline M1...
Despite of its importance and attractivity to industrial application, the heterogeneously catalyzed ...
International audienceThis review paper presents an overview of heterogeneous selective ammoxidation...
Kinetic and isotopic studies showed that C-H bond activation in ethane by surfaces essentially satur...
International audienceThis paper presents an overview of heterogeneous partial (amm)oxidation and ox...
We report here first principles predictions (density functional theory with periodic boundary condit...
A MoVTeNb multimetallic mixed oxide was studied for the oxidative dehydrogenation of ethane, a promi...
Catalytic oxidation of ethane is studied intensively in the scientific literature, but it is still f...
New MoVTeNb multi-component catalysts (so-called M1 phase) were designed and tested using combinator...
The influence of niobium and/or palladium in MoV0.4Ox on both solid state chemistry and catalytic pr...
The catalytic performance of Mo8V2Nb1-based mixed-oxide catalysts for ethane partial oxidation is hi...
The catalytic performance of Mo8V2Nb1-based mixed-oxide catalysts for ethane partial oxidation is hi...
AbstractCatalysts based on Mo, V, Nb mixed oxides can effect the partial oxidation of ethane to acet...
AbstractThis review paper presents an overview of heterogeneous selective ammoxidation and oxidative...
This document is the Accepted Manuscript version of a Published Work that appeared in final form in ...
Ethane oxidative dehydrogenation (ODH) is an alternative route for ethene production. Crystalline M1...
Despite of its importance and attractivity to industrial application, the heterogeneously catalyzed ...
International audienceThis review paper presents an overview of heterogeneous selective ammoxidation...
Kinetic and isotopic studies showed that C-H bond activation in ethane by surfaces essentially satur...
International audienceThis paper presents an overview of heterogeneous partial (amm)oxidation and ox...
We report here first principles predictions (density functional theory with periodic boundary condit...
A MoVTeNb multimetallic mixed oxide was studied for the oxidative dehydrogenation of ethane, a promi...
Catalytic oxidation of ethane is studied intensively in the scientific literature, but it is still f...
New MoVTeNb multi-component catalysts (so-called M1 phase) were designed and tested using combinator...
The influence of niobium and/or palladium in MoV0.4Ox on both solid state chemistry and catalytic pr...