The formation of lithium ferrites (LiFe5O8 and LiFeO2) from mechanically activated mixtures of Li2CO3–Fe2O3 has been studied using thermal analysis (TGA, DSC), evolved gas analysis (TG/FT-IR), X-ray powder diffraction (XRD), scanning electron microscopy (SEM) and particle size analysis. It is shown that mechanical activation of the precursors considerably enhances the reactivity of the solid system analysed and makes it possible to obtain reaction products with a much lower expense of thermal energy. In particular, lithium ferrites can be obtained at temperatures at least 160 °C lower than those necessary in the absence of mechanical activation. Moreover, both the microstructure and the allotropic ratio of the products, as well as the react...
XRPD and TG analyses showed that milling a 1:5 (molar ratio) mixture of Li2CO3–Ga2O3 results in the ...
Simultaneous TG/DSC measurements performed on mixtures 2Li2CO3-5TiO2 (anatase) subjected to high-en...
Pure, crystalline, ∼10 nm lithium ferrite phase (Li0.5Fe2.5O4), was successfully synthesized at very...
The formation of lithium ferrites (LiFe5O8 and LiFeO2) from mechanically activated mixtures of Li2CO...
Solid State Reaction study has been performed on the systems Li2CO3-FeC2O4*2H2O and Li2CO3-Fe2(C2O4)...
The influence of ball milling and subsequent calcination of a 2.5:1 molar mixture of alpha-Fe2O3 and...
The influence of heating rate on solid-phase interaction in Li[2]CO[3]-Fe[2]O[3] reaction mixture wa...
Solid-phase synthesis of lithium-titanium ferrite by electron-beam heating of a Fe2O3–Li2CO3–TiO2 in...
The solid state formation of lithium manganese oxides has been studied from the thermal decompositio...
The structural and magnetic properties of lithium ferrite nanoparticles synthesized through the solu...
The effect of mechanical milling in a planetary ball mills on dispersity of the synthesized lithium ...
Influence of Li[2]CO[3]-ZnO-Fe[2]O[3] powder reagents mixture density on the synthesis efficiency of...
Abstract Nanocrystalline lithium ferrite Li 0.5 Fe 1.7 Mg 0.8 O 4 powders were synthesized by the so...
A thermoanalytical (TG/DSC) and diffractometric (XRD) study has been performed on the solid state re...
Applying a new synthesis route based on the thermal decomposition of a mixture acetylacetonato compl...
XRPD and TG analyses showed that milling a 1:5 (molar ratio) mixture of Li2CO3–Ga2O3 results in the ...
Simultaneous TG/DSC measurements performed on mixtures 2Li2CO3-5TiO2 (anatase) subjected to high-en...
Pure, crystalline, ∼10 nm lithium ferrite phase (Li0.5Fe2.5O4), was successfully synthesized at very...
The formation of lithium ferrites (LiFe5O8 and LiFeO2) from mechanically activated mixtures of Li2CO...
Solid State Reaction study has been performed on the systems Li2CO3-FeC2O4*2H2O and Li2CO3-Fe2(C2O4)...
The influence of ball milling and subsequent calcination of a 2.5:1 molar mixture of alpha-Fe2O3 and...
The influence of heating rate on solid-phase interaction in Li[2]CO[3]-Fe[2]O[3] reaction mixture wa...
Solid-phase synthesis of lithium-titanium ferrite by electron-beam heating of a Fe2O3–Li2CO3–TiO2 in...
The solid state formation of lithium manganese oxides has been studied from the thermal decompositio...
The structural and magnetic properties of lithium ferrite nanoparticles synthesized through the solu...
The effect of mechanical milling in a planetary ball mills on dispersity of the synthesized lithium ...
Influence of Li[2]CO[3]-ZnO-Fe[2]O[3] powder reagents mixture density on the synthesis efficiency of...
Abstract Nanocrystalline lithium ferrite Li 0.5 Fe 1.7 Mg 0.8 O 4 powders were synthesized by the so...
A thermoanalytical (TG/DSC) and diffractometric (XRD) study has been performed on the solid state re...
Applying a new synthesis route based on the thermal decomposition of a mixture acetylacetonato compl...
XRPD and TG analyses showed that milling a 1:5 (molar ratio) mixture of Li2CO3–Ga2O3 results in the ...
Simultaneous TG/DSC measurements performed on mixtures 2Li2CO3-5TiO2 (anatase) subjected to high-en...
Pure, crystalline, ∼10 nm lithium ferrite phase (Li0.5Fe2.5O4), was successfully synthesized at very...