Add to ORKGAb initio models for catalysis have been almost entirely aimed at understanding catalysis on crystalline materials. Catalysis on amorphous supports like silica-alumina are currently not amenable to systematic ab initio modeling. The problems stem from a diversity of local site environments and a lack of structural information of those environments. A systematic ab initio strategy for predicting structure-activity relationships in amorphous catalysts and support
Accurate atomically detailed models of amorphous materials have been elusive to-date due to limitati...
International audienceThe kinetic stability of any material in water relies on the presence of surfa...
Amorphous silica-alumina (ASA) is widely used as a solid acid catalyst or as a carrier for well-disp...
Amorphous materials are widely used as components of solid catalysts, and have been the subject of m...
Several industrially important catalysts are single metals dispersed on amorphous supports. For exam...
In this paper, we review our recent considerations regarding the structural features of active ensem...
The applications of silica-aluminas in industrial catalytic processes are briefly reviewed. The lite...
Ab initio thermodynamics and first-principles microkinetic simulations have become standard tools in...
A systematic approach to model heterogeneous catalyst material and characterization at the atomic le...
Amorphous silica is a commonly used catalyst support, yet there are relatively few experimental or c...
Within the field of catalysis, theoretical modeling has also taken a prominent role. This chapter an...
Heterogeneous catalysis is one of the fields of modern technology, where the application of complex ...
Catalytic processes occurring on the surfaces of heterogeneous catalysts are controlled by the molec...
*S Supporting Information ABSTRACT: Despite the widespread use of amorphous aluminosilicates (ASA) i...
Amorphous and crystalline aluminosilicate metal oxides have a wide range of industrial applications ...
Accurate atomically detailed models of amorphous materials have been elusive to-date due to limitati...
International audienceThe kinetic stability of any material in water relies on the presence of surfa...
Amorphous silica-alumina (ASA) is widely used as a solid acid catalyst or as a carrier for well-disp...
Amorphous materials are widely used as components of solid catalysts, and have been the subject of m...
Several industrially important catalysts are single metals dispersed on amorphous supports. For exam...
In this paper, we review our recent considerations regarding the structural features of active ensem...
The applications of silica-aluminas in industrial catalytic processes are briefly reviewed. The lite...
Ab initio thermodynamics and first-principles microkinetic simulations have become standard tools in...
A systematic approach to model heterogeneous catalyst material and characterization at the atomic le...
Amorphous silica is a commonly used catalyst support, yet there are relatively few experimental or c...
Within the field of catalysis, theoretical modeling has also taken a prominent role. This chapter an...
Heterogeneous catalysis is one of the fields of modern technology, where the application of complex ...
Catalytic processes occurring on the surfaces of heterogeneous catalysts are controlled by the molec...
*S Supporting Information ABSTRACT: Despite the widespread use of amorphous aluminosilicates (ASA) i...
Amorphous and crystalline aluminosilicate metal oxides have a wide range of industrial applications ...
Accurate atomically detailed models of amorphous materials have been elusive to-date due to limitati...
International audienceThe kinetic stability of any material in water relies on the presence of surfa...
Amorphous silica-alumina (ASA) is widely used as a solid acid catalyst or as a carrier for well-disp...