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Samarium Strontium Cobalt Oxide Nanoparticle Dispersion

Samarium Strontium Cobalt Oxide Nanodispersion

Linear Formula:

SrO • Sm2O3 • 2Co3O4

MDL Number:


EC No.:



Samarium Strontium Cobalt Oxide Nanoparticle Dispersion
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Samarium Strontium Cobalt Oxide Nanoparticle Dispersion Properties

Compound Formula


Molecular Weight



Gray to Black Nanopowder

Melting Point


Exact Mass


Monoisotopic Mass


Samarium Strontium Cobalt Oxide Nanoparticle Dispersion Health & Safety Information

Signal Word Danger
Hazard Statements H314-H317-H351
Hazard Codes C
Risk Codes 14-34-40-43
Safety Statements 26-36/37/39-45
RTECS Number N/A
Transport Information UN 3262 8/PG 2
WGK Germany 3

About Samarium Strontium Cobalt Oxide Nanoparticle Dispersion

Samarium Strontium Cobalt Oxide Nanoparticle Dispersions are suspensions of samarium strontium cobalt 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.

Samarium Strontium Cobalt Oxide Nanoparticle Dispersion Synonyms

Samarium Strontium Cobaltite, SSC, strontium- doped samarium cobaltite, Cobalt samarium strontium oxide , SmSrCo4Ox; 491845-26-2, Samarium Strontium Cobalt Oxide nanopowder suspension, aqueous Samarium Strontium Cobalt Oxide nanoparticle solution, Samarium Strontium Cobalt Oxide nanofluid

Samarium Strontium Cobalt Oxide Nanoparticle Dispersion Chemical Identifiers

Linear Formula

SrO • Sm2O3 • 2Co3O4

Pubchem CID


MDL Number


EC No.



oxocobalt; oxo(oxocobaltiooxy)cobalt; oxo(oxosamariooxy)samarium; oxostrontium



InchI Identifier


InchI Key


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 Cobalt products. Cobalt (atomic symbol: Co, atomic number: 27) is a Block D, Group 9, Period 4 element with an atomic weight of 58.933195. Cobalt Bohr ModelThe number of electrons in each of cobalt's shells is 2, 8, 15, 2 and its electron configuration is [Ar] 3d7 4s2The cobalt atom has a radius of 125 pm and a Van der Waals radius of 192 pm. Cobalt was first discovered by George Brandt in 1732. In its elemental form, cobalt has a lustrous gray appearance. Cobalt is found in cobaltite, erythrite, glaucodot and skutterudite ores. Elemental CobaltCobalt produces brilliant blue pigments which have been used since ancient times to color paint and glass. Cobalt is a ferromagnetic metal and is used primarily in the production of magnetic and high-strength superalloys. Co-60, a commercially important radioisotope, is useful as a radioactive tracer and gamma ray source. The origin of the word Cobalt comes from the German word "Kobalt" or "Kobold," which translates as "goblin," "elf" or "evil spirit." For more information on cobalt, including properties, safety data, research, and American Elements' catalog of cobalt products, visit the Cobalt element page.

See more Samarium products. Samarium (atomic symbol: Sm, atomic number: 62) is a Block F, Group 3, Period 6 element with an atomic radius of 150.36. Samarium Bohr ModelThe number of electrons in each of samarium's shells is 2, 8, 18, 24, 8, 2 and its electron configuration is [Xe]4f6 6s2. The samarium atom has a radius of 180 pm and a Van der Waals radius of 229 pm. In its elemental form, samarium has a silvery-white appearance. Elemental Samarium PictureSamarium is not found as free element in nature. It is found in the minerals cerite, gadolinite, samarskite, monazite and bastnäsite. Samarium is classified as a rare earth element and is the 40th most abundant element in the Earth's crust. Samarium was discovered and first isolated by Lecoq de Boisbaudran in 1879. It is named after the mineral samarskite, the mineral from which it was isolated.

See more Strontium products. Strontium (atomic symbol: Sr, atomic number: 38) is a Block S, Group 2, Period 5 element with an atomic weight of 87.62 . Strontium Bohr ModelThe number of electrons in each of Strontium's shells is [2, 8, 18, 8, 2] and its electron configuration is [Kr] 5s2. The strontium atom has a radius of 215 pm and a Van der Waals radius of 249 pm. Strontium was discovered by William Cruickshank in 1787 and first isolated by Humphry Davy in 1808. In its elemental form, strontium is a soft, silvery white metallic solid that quickly turns yellow when exposed to air. Elemental StrontiumCathode ray tubes in televisions are made of strontium, which are becoming increasingly displaced by other display technologies pyrotechnics and fireworks employ strontium salts to achhieve a bright red color. Radioactive isotopes of strontium have been used in radioisotope thermoelectric generators (RTGs) and for certain cancer treatments. In nature, most strontium is found in celestite (as strontium sulfate) and strontianite (as strontium carbonate). Strontium was named after the Scottish town where it was discovered.

Recent Research

Facile hydrothermal synthesis of urchin-like cobalt manganese spinel for high-performance supercapacitor applications., Venkateswarlu, Pamidi, Umeshbabu Ediga, U Kumar Naveen, Nagaraja Pernapati, Tirupathi Patri, G Rao Ranga, and Justin Ponniah , J Colloid Interface Sci, 2017 Oct 01, Volume 503, p.17-27, (2017)

The electron shuffle: Cerium influences samarium 4f orbital occupancy in heteronuclear Ce-Sm oxide clusters., Kafader, Jared O., Topolski Josey E., Marrero-Colon Vicmarie, Iyengar Srinivasan S., and Jarrold Caroline Chick , J Chem Phys, 2017 May 21, Volume 146, Issue 19, p.194310, (2017)

Facile synthesis of Co3O4-CeO2 composite oxide nanotubes and their multifunctional applications for lithium ion batteries and CO oxidation., Yuan, Chenpei, Wang Heng-Guo, Liu Jiaqi, Wu Qiong, Duan Qian, and Li Yanhui , J Colloid Interface Sci, 2017 May 15, Volume 494, p.274-281, (2017)

In-situ growth of ultrathin cobalt monoxide nanocrystals on reduced graphene oxide substrates: an efficient electrocatalyst for aprotic Li-O2 batteries., Yuan, Mengwei, Lin Liu, Yang Yan, Nan Caiyun, Ma Shulan, Sun Genban, and Li Huifeng , Nanotechnology, 2017 May 05, Volume 28, Issue 18, p.185401, (2017)

Sonochemical oxidation of vanillyl alcohol to vanillin in the presence of a cobalt oxide catalyst under mild conditions., Behling, Ronan, Chatel Gregory, and Valange Sabine , Ultrason Sonochem, 2017 May, Volume 36, p.27-35, (2017)

Effect of strontium on Nd doped Ba1-x Sr x Ce0.65Zr0.25Nd0.1O3-δ proton conductor as an electrolyte for solid oxide fuel cells., J Sailaja, Madhuri, K Babu Vijaya, Murali N, and Veeraiah V , J Adv Res, 2017 May, Volume 8, Issue 3, p.169-181, (2017)

Role of magnesium oxide and strontium oxide as modifiers in silicate-based bioactive glasses: Effects on thermal behaviour, mechanical properties and in-vitro bioactivity., Bellucci, Devis, Sola Antonella, Salvatori Roberta, Anesi Alexandre, Chiarini Luigi, and Cannillo Valeria , Mater Sci Eng C Mater Biol Appl, 2017 Mar 01, Volume 72, p.566-575, (2017)

Decomposition pathways of polytetrafluoroethylene by co-grinding with strontium/calcium oxides., Qu, Jun, He Xiaoman, Zhang Qiwu, Liu Xinzhong, and Saito Fumio , Environ Technol, 2017 Jun, Volume 38, Issue 11, p.1421-1427, (2017)

Highly CO2-Tolerant Cathode for Intermediate-Temperature Solid Oxide Fuel Cells: Samarium-Doped Ceria-Protected SrCo0.85Ta0.15O3-δ Hybrid., Li, Mengran, Zhou Wei, and Zhu Zhonghua , ACS Appl Mater Interfaces, 2017 Jan 25, Volume 9, Issue 3, p.2326-2333, (2017)


June 23, 2017
Los Angeles, CA
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