Add to ORKGChemical vapor deposition (CVD) using precursors that are solids at operating temperatures and pressures, presents challenges due to their relatively low vapor pressures. In addition, the sublimation rates of solid state precursors in fixed bed reactors vary with particle and bed morphology. In a recent patent application, the use of fluidized bed (FB) technology has been proposed to provide high, reliable, and reproducible flux of such precursors in CVD processes. In the present contribution, we first focus on the reactor design which must satisfy fluidization,sublimation and CVD reactor feeding constraints. Then, we report masstransport results on the sublimation of aluminium acetylacetonate, a common precursor for the CVD of alumina film...
Fluidization is a well-established and widely used technology in the process industry. The productio...
Producing alumina catalysts containing high amounts of penta-coordinated aluminum sites ([5]Al) is o...
The hydrodynamic behaviour of a very dense tungsten powder, 75 µm in median diameter and 19,300 kg/m...
Chemical vapor deposition (CVD) using precursors that are solids at operating temperatures and press...
A fluidized-bed, solid-precursor delivery system is found to overcome the mass and heat transport pr...
Chemical vapour deposition and atomic layer deposition using precursors that are solids at ambient t...
New tools have been developed for vaporization of solid precursors to meet the demands of high feed ...
Due to attractive surface properties and to intrinsic brittleness of Complex Metallic Alloys (CMAs),...
AbstractIn some CVD processes the precursor is introduced into the reactor as vapor obtained by subl...
Chemical vapor deposition (CVD) is an important technique for surface modification of powders throug...
Two representative examples of the vapor phase transport of liquid and solid molecular precursors fr...
A new route to deposit alumina nanometric thin films on powders from the single source Aluminum Tri-...
Titanium oxide (TiO2) submicron powders have been treated by Chemical Vapor Deposition (CVD) in a vi...
A SiO2 powder has been coated by alumina using the Fluidized Bed Chemical Vapor Deposition process ...
Chemical vapour deposition (CVD) and atomic layer deposition (ALD) are attractive techniques for dep...
Fluidization is a well-established and widely used technology in the process industry. The productio...
Producing alumina catalysts containing high amounts of penta-coordinated aluminum sites ([5]Al) is o...
The hydrodynamic behaviour of a very dense tungsten powder, 75 µm in median diameter and 19,300 kg/m...
Chemical vapor deposition (CVD) using precursors that are solids at operating temperatures and press...
A fluidized-bed, solid-precursor delivery system is found to overcome the mass and heat transport pr...
Chemical vapour deposition and atomic layer deposition using precursors that are solids at ambient t...
New tools have been developed for vaporization of solid precursors to meet the demands of high feed ...
Due to attractive surface properties and to intrinsic brittleness of Complex Metallic Alloys (CMAs),...
AbstractIn some CVD processes the precursor is introduced into the reactor as vapor obtained by subl...
Chemical vapor deposition (CVD) is an important technique for surface modification of powders throug...
Two representative examples of the vapor phase transport of liquid and solid molecular precursors fr...
A new route to deposit alumina nanometric thin films on powders from the single source Aluminum Tri-...
Titanium oxide (TiO2) submicron powders have been treated by Chemical Vapor Deposition (CVD) in a vi...
A SiO2 powder has been coated by alumina using the Fluidized Bed Chemical Vapor Deposition process ...
Chemical vapour deposition (CVD) and atomic layer deposition (ALD) are attractive techniques for dep...
Fluidization is a well-established and widely used technology in the process industry. The productio...
Producing alumina catalysts containing high amounts of penta-coordinated aluminum sites ([5]Al) is o...
The hydrodynamic behaviour of a very dense tungsten powder, 75 µm in median diameter and 19,300 kg/m...