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Barium Iron Oxide Nanoparticle Dispersion

Barium Iron Oxide Nanodispersion

CAS #:

Linear Formula:

BaFe12O19

MDL Number:

MFCD00075637

EC No.:

234-974-5

ORDER

PRODUCT Product Code ORDER SAFETY DATA TECHNICAL DATA
Barium Iron Oxide Nanoparticle Dispersion
BA-FEO-01-NPD
Pricing > SDS > Data Sheet >

Barium Iron Oxide Nanoparticle Dispersion Properties

Molecular Weight

1111.06

Appearance

solid

Melting Point

Varies by solvent

Boiling Point

Varies by solvent

Density

Varies by solvent

Crystal Phase / Structure

N/A

True Density

5.4 g/cm3

Average Particle Size

100 nm

Size Range

N/A

Specific Surface Area

N/A

Morphology

polyhedral

Barium Iron Oxide Nanoparticle Dispersion Health & Safety Information

Signal Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Statements N/A
RTECS Number N/A
Transport Information N/A
WGK Germany N/A
MSDS / SDS

About Barium Iron Oxide Nanoparticle Dispersion

Barium Iron Oxide Nanoparticle Dispersions are suspensions of barium iron oxide nanoparticles in water or various organic solvents such as ethanol or mineral oil. American Elements manufactures oxide nanopowders and nanoparticles with typical particle sizes ranging from 10 to 200nm and in coated and surface functionalized forms. Our nanodispersion and nanofluid experts can provide technical guidance for selecting the most appropriate particle size, solvent, and coating material for a given application. We can also produce custom nanomaterials tailored to the specific requirements of our customers upon request.

Barium Iron Oxide Nanoparticle Dispersion Synonyms

Barium ferrite, Barium dodecairon nonadecaoxide, Barium Iron Oxide nanopowder suspension, aqueous Barium Iron Oxide nanoparticle solution, Barium Iron Oxide nanofluid

Barium Iron Oxide Nanoparticle Dispersion Chemical Identifiers

Linear Formula

BaFe12O19

Pubchem CID

24882871

MDL Number

MFCD00075637

EC No.

234-974-5

Beilstein Registry No.

N/A

IUPAC Name

oxobarium; oxo (oxoferriooxy) iron

SMILES

[O-2].[O-2].[O-2].[O-2].[O-2].[O-2].[Ba+2].[Fe+3].[Fe+3].[O-2].[Fe+3].[Fe+3].[Fe+3].[Fe+3].[Fe+3].[Fe+3].[Fe+3].[Fe+3].[Fe+3].[Fe+3].[O-2].[O-2].[O-2].[O-2].[O-2].[O-2].[O-2].[O-2].[O-2].[O-2].[O-2].[O-2]

InchI Identifier

InChI=1S/Ba.12Fe.19O/q+2;12*+3;19*-2

InchI Key

HPYIMVBXZPJVBV-UHFFFAOYSA-N

Packaging Specifications

Typical bulk packaging includes palletized plastic 5 gallon/25 kg. pails, fiber and steel drums to 1 ton super sacks in full container (FCL) or truck load (T/L) quantities. Research and sample quantities and hygroscopic, oxidizing or other air sensitive materials may be packaged under argon or vacuum. Shipping documentation includes a Certificate of Analysis and Safety Data Sheet (SDS). Solutions are packaged in polypropylene, plastic or glass jars up to palletized 440 gallon liquid totes, and 36,000 lb. tanker trucks.

Related Elements

See more Barium products. Barium (atomic symbol: Ba, atomic number: 56) is a Block S, Group 2, Period 6 element with an atomic weight of 137.27. The number of electrons in each of barium's shells is [2, 8, 18, 18, 8, 2] and its electron configuration is [Xe] 6s2. Barium Bohr ModelBarium is a member of the alkaline-earth metals. The barium atom has a radius of 222 pm and a Van der Waals radius of 268 pm. Barium was discovered by Carl Wilhelm Scheele in 1772 and first isolated by Humphry Davy in 1808. Elemental BariumIn its elemental form, barium is a soft, silvery-gray metal. Industrial applications for barium include acting as a "getterer," or unwanted gas remover, for vacuum tubes, and as an additive to steel and cast iron. Barium is also alloyed with silicon and aluminum as load-bearing alloys. The main commercial source of barium is the mineral barite (BaSO4) it does not occur naturally as a free element . The name barium is derived from the Greek word "barys," meaning heavy.

See more Iron products. Iron (atomic symbol: Fe, atomic number: 26) is a Block D, Group 8, Period 4 element with an atomic weight of 55.845. The number of electrons in each of Iron's shells is 2, 8, 14, 2 and its electron configuration is [Ar] 3d6 4s2. Iron Bohr ModelThe iron atom has a radius of 126 pm and a Van der Waals radius of 194 pm. Iron was discovered by humans before 5000 BC. In its elemental form, iron has a lustrous grayish metallic appearance. Iron is the fourth most common element in the Earth's crust and the most common element by mass forming the earth as a whole. Iron is rarely found as a free element, since it tends to oxidize easily; it is usually found in minerals such as magnetite, hematite, goethite, limonite, or siderite.Elemental Iron Though pure iron is typically soft, the addition of carbon creates the alloy known as steel, which is significantly stronger.

Recent Research

Lanthanum and Neodymium Doped Barium Ferrite-TiO2/MCNTs/poly(3-methyl thiophene) Composites with Nest Structures: Preparation, Characterization and Electromagnetic Microwave Absorption Properties., Zhao, Jie, Yu Jian, Xie Yu, Le Zhanggao, Hong Xiaowei, Ci Suqin, Chen Junhong, Qing Xiaoyan, Xie Weijie, and Wen Zhenhai , Sci Rep, 2016, Volume 6, p.20496, (2016)

Enhanced dielectric properties of poly(vinylidene fluoride) composites filled with nano iron oxide-deposited barium titanate hybrid particles., Zhang, Changhai, Chi Qingguo, Dong Jiufeng, Cui Yang, Wang Xuan, Liu Lizhu, and Lei Qingquan , Sci Rep, 2016, Volume 6, p.33508, (2016)

Efficiency of barium removal from radioactive waste water using the combination of maghemite and titania nanoparticles in PVA and alginate beads., Majidnia, Zohreh, Idris Ani, Majid MuhdZaimiAbd, Zin RosliMohamad, and Ponraj Mohanadoss , Appl Radiat Isot, 2015 Nov, Volume 105, p.105-13, (2015)

Adsorption process of fluoride from drinking water with magnetic core-shell Ce-Ti@Fe3O4 and Ce-Ti oxide nanoparticles., Markeb, Ahmad Abo, Alonso Amanda, Sánchez Antoni, and Font Xavier , Sci Total Environ, 2017 Nov 15, Volume 598, p.949-958, (2017)

Removal of thallium from aqueous solutions using Fe-Mn binary oxides., Li, Huosheng, Chen Yongheng, Long Jianyou, Li Xiuwan, Jiang Daqian, Zhang Ping, Qi Jianying, Huang Xuexia, Liu Juan, Xu Ruibing, et al. , J Hazard Mater, 2017 May 25, Volume 338, p.296-305, (2017)

Nanoclusters and nanolines: the effect of molybdenum oxide substrate stoichiometry on iron self-assembly., Lübben, O, Krasnikov S A., Walls B, Sergeeva N N., Murphy B E., Chaika A N., Bozhko S I., and Shvets I V. , Nanotechnology, 2017 May 19, Volume 28, Issue 20, p.205602, (2017)

Spinel-type manganese ferrite (MnFe2O4) microspheres: A novel affinity probe for selective and fast enrichment of phosphopeptides., Long, Xing-Yu, Li Jia-Yuan, Sheng Dong, and Lian Hong-zhen , Talanta, 2017 May 01, Volume 166, p.36-45, (2017)

Preparation and evaluation of APTES-PEG coated iron oxide nanoparticles conjugated to rhenium-188 labeled rituximab., Azadbakht, Bakhtiar, Afarideh Hossein, Ghannadi-Maragheh Mohammad, Bahrami-Samani Ali, and Asgari Mehdi , Nucl Med Biol, 2017 May, Volume 48, p.26-30, (2017)

Preparation and characterization of porous reduced graphene oxide based inverse spinel nickel ferrite nanocomposite for adsorption removal of radionuclides., Lingamdinne, Lakshmi Prasanna, Choi Yu-Lim, Kim Im-Soon, Yang Jae-Kyu, Koduru Janardhan Reddy, and Chang Yoon-Young , J Hazard Mater, 2017 Mar 15, Volume 326, p.145-156, (2017)

FeOOH-graphene oxide nanocomposites for fluoride removal from water: Acetate mediated nano FeOOH growth and adsorption mechanism., Kuang, Liyuan, Liu Yuyang, Fu Dandan, and Zhao Yaping , J Colloid Interface Sci, 2017 Mar 15, Volume 490, p.259-269, (2017)

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