In this work, the Fe–Mn–O system was mechanically processed in a high-energy ball-milling. The as milled powders were characterized by X-ray diffraction (XRD), temperature programmed reduction (TPR), X-ray photoelectron spectroscopy (XPS) and specific surface area measurement. Catalytic total oxidation of n-hexane was studied to find out the suitability of the material for VOC decomposition reaction. The route of the solid state transformation of Mn–Fe–O system has been established as a function of the cumulated energy from mechanical milling. Complex multicomponent catalysts, which may be difficult to prepare by conventional high temperature treatment, have been successfully prepared by milling.Fil: Barroso Quiroga, Maria Martha. Consejo N...
This paper deals with an economic and clean route for the synthesis of ferro-alloys through utilizat...
In the study, the method of high-energy powder milling - mechanical activation (MA) was used for syn...
AbstractIn this work, formation of iron oxide nanoparticles by mechanochemical reactions in differen...
A thermal treatment at 900 °C (under nitrogen) of a milled mixture MnO-Fe2O3 yields MnFe2O4 mainly a...
Nanocrystalline MnFe2O4 particles were synthesized by a high-energy ball milling technique, starting...
The influence of long-term milling of a mixture of MnCO3 and α-Fe2O3, and of MnO2 and α-Fe2O3 powder...
The tightening of emission regulations and increasing prices of precious metals for existing commerc...
The production of metal–ceramic nanodispersion by mechanical milling of powders through the displace...
In recent years the field of mechanochemical activation of solids for the enhancement of heterogeneo...
The mechanochemical treatment of alpha-Fe2O3 powder was done concurrently in air and oxygen atmosphe...
Heterometallic double Fe2O3–CoCl2, CoCl2–V2O5, MoO3–V2O5, and triple CuO–Fe2O3–CoCl2 3d metal disper...
The production of metal–ceramic nanodispersion by mechanical milling of powders through the displace...
Supported MnCuCe and MnCe mixed oxides catalysts were prepared and evaluated in n-hexane combustion ...
Yttrium manganite (YMnO3) is a multiferroic material, which means that it exhibits both ferromagneti...
Mn-Cu mixed oxides were deposited by ultrasonic impregnation on ceramic honeycomb monoliths. Its cat...
This paper deals with an economic and clean route for the synthesis of ferro-alloys through utilizat...
In the study, the method of high-energy powder milling - mechanical activation (MA) was used for syn...
AbstractIn this work, formation of iron oxide nanoparticles by mechanochemical reactions in differen...
A thermal treatment at 900 °C (under nitrogen) of a milled mixture MnO-Fe2O3 yields MnFe2O4 mainly a...
Nanocrystalline MnFe2O4 particles were synthesized by a high-energy ball milling technique, starting...
The influence of long-term milling of a mixture of MnCO3 and α-Fe2O3, and of MnO2 and α-Fe2O3 powder...
The tightening of emission regulations and increasing prices of precious metals for existing commerc...
The production of metal–ceramic nanodispersion by mechanical milling of powders through the displace...
In recent years the field of mechanochemical activation of solids for the enhancement of heterogeneo...
The mechanochemical treatment of alpha-Fe2O3 powder was done concurrently in air and oxygen atmosphe...
Heterometallic double Fe2O3–CoCl2, CoCl2–V2O5, MoO3–V2O5, and triple CuO–Fe2O3–CoCl2 3d metal disper...
The production of metal–ceramic nanodispersion by mechanical milling of powders through the displace...
Supported MnCuCe and MnCe mixed oxides catalysts were prepared and evaluated in n-hexane combustion ...
Yttrium manganite (YMnO3) is a multiferroic material, which means that it exhibits both ferromagneti...
Mn-Cu mixed oxides were deposited by ultrasonic impregnation on ceramic honeycomb monoliths. Its cat...
This paper deals with an economic and clean route for the synthesis of ferro-alloys through utilizat...
In the study, the method of high-energy powder milling - mechanical activation (MA) was used for syn...
AbstractIn this work, formation of iron oxide nanoparticles by mechanochemical reactions in differen...