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

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...
Carbon Nanotubes Specifications and Properties Carbon Nanotubes, simply CNTs, are allotropes of carbon with a round and hollow nanostructure. These barrel shaped carbon molecules have crucial properties, which are significant for nanotechnology, hardware, optics and other different fields of materials science and innovation. The carbon nanotube’s excellent quality as a strong and firm material laid the basis on many applications. Not to mention carbon nanotubes exceptional heat conductivity, electrical and mechanical properties, Carbon Nanotubes are used as additives to diverse auxiliary materials. In terms of rigidity and flexibility Carbon Nanotubes are the stiffest and strongest materials. These quality outcomes from the covalent sp2 bonds framed between the individual carbon molecules. Unlike Graphene , Carbon Nanotubes are either conductive or semiconducting along the tubular hub. Carbon Nanotubes also have absorption, fluorescence properties. Bulk Carbon nanotubes are util...

Hydroxyapatite Nanopowders and Their Applications

Hydroxyapatite, is a naturally occurring mineral form of calcium apatite with the formula Ca 5 (PO 4 ) 3 (OH). Pure hydroxyapatite powder is white. Naturally occurring apatites can, however, also have brown, yellow, or green colorations, comparable to the discolorations of dental fluorosis. Hydroxyapatite Nanopowder/Nanoparticles (50 nm, 99.95+%)  has been widely used as a biocompatible ceramic in many areas of medicine, but mainly for contact with bone tissue, due to its resemblance to mineral bone. In mammals, the skeleton presents a carbonated and partially substituted apatite, based on nanocrystal aggregates, and associated with collagen, building up 3-D structures present in various bone tissue conformations like trabecular or cancellous bone. There has been growing interest in developing bioactive synthetic ceramics that could closely mimic natural apatite characteristics. As mentioned before,  Hydroxyapatite Nanopowder  is the main inorganic constituent of bon...