The production of nano-silica by the olivine route is a cheaper and greener method than the commercial methods (neutralization of sodium silicate solutions and the flame hydrolysis) because of the low cost of raw materials and the low energy requirements. The produced olivine nano-silica has a specific surface area between 100-400 m2/g and primary particles between 10 to 25 nm (agglomerated in clusters). The process conditions and the ripening process influence the properties of nano-silica in the following ways i) the cleaner the nano-silica is the higher the specific surface area is; ii) the higher the filtration pressure is the higher the surface area is (unless the pressure is so high that the voids of the material collapse redu...
This study addresses the synthesis of amorphous mesoporous nano-silica by the dissolution of olivine...
The production of colloidal nano-silica by the dissolution of olivine represents a new and interesti...
The production of colloidal nano-silica by the dissolution of olivine represents a new and interesti...
The production of nano-silica by the olivine route is a cheaper and greener method than the commerci...
The production of nano-silica by the olivine route is a cheaper and greener method than the commerci...
The production of nano-silica by the olivine route is a cheaper and greener method than the commerci...
The production of nano-silica by the olivine route is a cheaper and greener method than the commerci...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
This study addresses the synthesis of amorphous mesoporous nano-silica by the dissolution of olivine...
This study addresses the synthesis of amorphous mesoporous nano-silica by the dissolution of olivine...
The production of colloidal nano-silica by the dissolution of olivine represents a new and interesti...
The production of colloidal nano-silica by the dissolution of olivine represents a new and interesti...
The production of nano-silica by the olivine route is a cheaper and greener method than the commerci...
The production of nano-silica by the olivine route is a cheaper and greener method than the commerci...
The production of nano-silica by the olivine route is a cheaper and greener method than the commerci...
The production of nano-silica by the olivine route is a cheaper and greener method than the commerci...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
The production of porous amorphous nano-silica by the olivine route is an interesting alternative to...
This study addresses the synthesis of amorphous mesoporous nano-silica by the dissolution of olivine...
This study addresses the synthesis of amorphous mesoporous nano-silica by the dissolution of olivine...
The production of colloidal nano-silica by the dissolution of olivine represents a new and interesti...
The production of colloidal nano-silica by the dissolution of olivine represents a new and interesti...