Skip to main content

Bismuth Ferrite Sputtering Targets and Applications

Bismuth ferrite with the chemical formula of BiFeO3, is an inorganic chemical compound with perovskite structure and one of the most promising multiferroic materials.
A bismuth ferrite sputtering target is usually made by high temperature sinttering/recrystallization the mixture of the oxide coumpound of Bi and Fe, to obtain an one phase material Bismuth Ferrite (BiFeO3). Indium bonding is recommended for bismuth ferrite sputtering targets.
Bismuth ferrit is a Pb-free ferroelectric (FE) material widely known for its excellent ferroelectric properties, such as large remnant polarization, high Curie temperature, and high antiferromagnetic Neel temperature. It is perhaps the only material that possesses magnetic and FE properties at and above room temperature. Recently, polarization-induced photovoltaic properties in bismuth ferrite have received increased attention owing to its extremely large remnant polarization and a direct energy band gap (3.3 eV).
Well-prepared bismuth ferrite films are more suitable than most ferroelectric materials for studying the ferroelectric photovoltaic effect. You may find a paper related to this topic in the link given below:
You can order bismuth ferrite sputtering targets from the links given on the table below:
TypeSizeThicknessPurityLink
Bismuth Ferrite Indium1'0.125''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-indium-sputtering-targets-size-1-thickness-0-125-purity-99-9/
Bismuth Ferrite Indium2'0.125''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-indium-sputtering-targets-size-2-thickness-0-125-purity-99-9/
Bismuth Ferrite Indium3'0.125''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-indium-sputtering-targets-size-3-thickness-0-125-purity-99-9/
Bismuth Ferrite1'0.125''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-1-thickness-0-125-purity-99-9/
Bismuth Ferrite1'0.250''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-1-thickness-0-250-purity-99-9/
Bismuth Ferrite2'0.125''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-2-thickness-0-125-purity-99-9/
Bismuth Ferrite2'0.250''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-2-thickness-0-250-purity-99-9/
Bismuth Ferrite3'0.125''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-3-thickness-0-125-purity-99-9/
Bismuth Ferrite3'0.250''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-3-thickness-0-250-purity-99-9/
Bismuth Ferrite4'0.125''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-4-thickness-0-125-purity-99-9/
Bismuth Ferrite4'0.250''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-4-thickness-0-250-purity-99-9/
Bismuth Ferrite5'0.125''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-5-thickness-0-125-purity-99-9/
Bismuth Ferrite5'0.250''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-5-thickness-0-250-purity-99-9/
Bismuth Ferrite6'0.125''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-6-thickness-0-125-purity-99-9/
Bismuth Ferrite6'0.250''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-6-thickness-0-250-purity-99-9/
Bismuth Ferrite7'0.125''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-7-thickness-0-125-purity-99-9/
Bismuth Ferrite7'0.250''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-7-thickness-0-250-purity-99-9/
Bismuth Ferrite8'0.125''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-8-thickness-0-125-purity-99-9/
Bismuth Ferrite8'0.250''99.9%https://nanografi.com/sputtering-targets/bismuth-ferrite-bifeo3-sputtering-targets-size-8-thickness-0-250-purity-99-9/

Comments

Post a Comment

Popular posts from this blog

Molybdenum Trioxide Nanoparticles/Nanopowder and Applications

General Information about Molybdenum Trioxide                                                     Molybdenum trioxide is chemical compound with the formula MoO3. Its chief application is as an oxidation catalyst and as a raw material for the production of molybdenum metal.  Molybdenum Trioxide  is a very light blue powder. Molybdenum Trioxide Nanoparticles/Nanopowder and Their Applications                                                    Like many  nanoparticles/nanopowder , Molybdenum Trioxide nanoparticles/nanopowder are used as catalysts. These catalysis reactions include hydrogenation catalysis and cracking catalysis. Molybdenum Trioxide nanoparticles/  nanopowder are useful for...
Post a Comment
Read more

Improving Dialysis Process with Graphene

Researchers from Mechanical and Electrical Engineering Departments of MIT recently showed that graphene is a powerful material candidate for use in the dialysis systems (such as hemodialysis machines in medical institutes for filtering human blood). In order to prepare graphene as a dialysis material, researchers used a procedure opposite to the general treatments that nanotechnology people use. Dialysis is a process of filtering different solutions such as human blood by a membrane in order to remove waste molecules, drugs, chemical residues from the solution. In some cases, the process can be used for purification of chemicals or isolation of different molecules for medical diagnosis. It is an essential process for scientists especially in the medical operations. Image Retrieved From: http://www.graphene-nownano.manchester.ac.uk/our-research/examples-of-current-projects/fundamental-science/use-of-graphene-as-bio-membrane/ The traditional membranes used in dialysis are thick ...
Post a Comment
Read more

Graphene Oxide Dispersion

Graphene oxide refers to a mono-atomic layer material obtained when graphite crystals are oxidized. This is one of the graphene materials that are commercially available because of  its ability to dissolve in water  which makes the oxidation process suitable. In this article, we will talk about the  synthesis, the properties and some of the applications of graphene oxide dispersion in water . Seven Properties of Graphene Oxide Dispersion The properties of a material are defined through its structure, however, this material is very peculiar, since there is no unambiguous model of this material. Graphene Oxide dispersion offers remarkable physical, chemical and mechanical properties that give the opportunity to new applications. Graphene Oxide is amorphous , but, in general, graphene oxide can be described as a two-dimensional sheet containing honeycomb carbon atoms with functional groups of hydroxide and oxygen, unlike the graphene model that seeks to completely re...
Post a Comment
Read more