Add to ORKGTwo processing routes,namely sonochemical and microemulsion have been exploited to prepare bismuth ferrite powders. Phase pure nanosized BiFeO3 powders are prepared by sonochemical and microemulsion techniques in the temperature range of 400 degrees C and at 500 degrees C which is much lower than that of the conventional preparation methods. The XRD obtained from both cases was likely to be pure bismuth ferrite. Though the microemulsion based powders showed slightly better properties with respect to particle size, surface area, and final density, sonochemically prepared powders may be more acceptable considering the ease of preparation and cost effectivenes
Nanosized bismuth ferrite powder has a potential application in the production of lead free piezoele...
Pure phase bismuth ferrite has been successfully prepared in this research using a modified method o...
Bismuth ferrite (BiFeO3) films (10 mm in thickness) are synthesized by electrodeposition from a dime...
The synthesis of bismuth ferrite by solid-state reaction of Bi2O3 and Fe2O3 results in the formation...
The synthesis parameters such as pH, concentration, precipitating agents, surfactant etc., determine...
A process for manufacturing phase pure nanosized magneto-electric bismuth ferrite, involves synthesi...
Perovskite, single multiferroic bismuth ferrite was prepared by two chemical methods: auto-combustio...
This paper describes research on a simple low-temperature synthesis route to prepare bismuth ferrite...
In this study, a highly crystalline bismuth ferrite (BFO) powder was synthesized using a novel, very...
In the present work, nanoparticles of multiferroic bismuth ferrites (BiFeO3) were synthesized via a ...
Multiferroic bismuth ferrite $(BiFeO_{3})$ nanopowders have been obtained at room temperature by mec...
BiFeO3 powders were synthesized by sonochemically assisted hydrothermal and hydro-evaporation method...
Bismuth ferrite (BiFeO3) is one of multiferroic material group, but it is difficult to produce BiFeO...
The density and magnetic properties of barium ferrite from BaFe12O19 Nanoparticles prepared by micro...
Abstract. Conditions for synthesizing single phase BiFeO3 are critical since the temperature stabili...
Nanosized bismuth ferrite powder has a potential application in the production of lead free piezoele...
Pure phase bismuth ferrite has been successfully prepared in this research using a modified method o...
Bismuth ferrite (BiFeO3) films (10 mm in thickness) are synthesized by electrodeposition from a dime...
The synthesis of bismuth ferrite by solid-state reaction of Bi2O3 and Fe2O3 results in the formation...
The synthesis parameters such as pH, concentration, precipitating agents, surfactant etc., determine...
A process for manufacturing phase pure nanosized magneto-electric bismuth ferrite, involves synthesi...
Perovskite, single multiferroic bismuth ferrite was prepared by two chemical methods: auto-combustio...
This paper describes research on a simple low-temperature synthesis route to prepare bismuth ferrite...
In this study, a highly crystalline bismuth ferrite (BFO) powder was synthesized using a novel, very...
In the present work, nanoparticles of multiferroic bismuth ferrites (BiFeO3) were synthesized via a ...
Multiferroic bismuth ferrite $(BiFeO_{3})$ nanopowders have been obtained at room temperature by mec...
BiFeO3 powders were synthesized by sonochemically assisted hydrothermal and hydro-evaporation method...
Bismuth ferrite (BiFeO3) is one of multiferroic material group, but it is difficult to produce BiFeO...
The density and magnetic properties of barium ferrite from BaFe12O19 Nanoparticles prepared by micro...
Abstract. Conditions for synthesizing single phase BiFeO3 are critical since the temperature stabili...
Nanosized bismuth ferrite powder has a potential application in the production of lead free piezoele...
Pure phase bismuth ferrite has been successfully prepared in this research using a modified method o...
Bismuth ferrite (BiFeO3) films (10 mm in thickness) are synthesized by electrodeposition from a dime...