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Thorium Oxide Nanoparticle Dispersion

Thorium Oxide Nanodispersion

CAS #:

Linear Formula:

ThO2

MDL Number:

N/A

EC No.:

253-453-3

ORDER

PRODUCT Product Code ORDER SAFETY DATA TECHNICAL DATA
Thorium Oxide Nanoparticle Dispersion
TH-OX-01-NPD
Pricing > SDS > Data Sheet >
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Thorium Oxide Nanoparticle Dispersion Properties

Compound Formula

O2Th

Molecular Weight

264.028 g/mol

Appearance

Liquid

Melting Point

Varies by solvent

Boiling Point

Varies by solvent

Density

Varies by solvent

Exact Mass

264.028 g/mol

Monoisotopic Mass

264.027879 Da

Thorium Oxide Nanoparticle Dispersion Health & Safety Information

Signal Word Danger
Hazard Statements H301 + H311 + H331-H350-H373
Hazard Codes N/A
Precautionary Statements P201-P202-P260-P264-P270-P271-P280-P301 + P310-P302 + P352-P304 + P340-P308 + P313-P322-P330-P361-P363-P403 + P233-P405-P501
RTECS Number NONH
Transport Information NONH
WGK Germany NONH
GHS Pictograms
MSDS / SDS

About Thorium Oxide Nanoparticle Dispersion

Thorium Oxide Nanoparticle Dispersions are suspensions of thorium 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.

Thorium Oxide Nanoparticle Dispersion Synonyms

N/A

Thorium Oxide Nanoparticle Dispersion Chemical Identifiers

Linear Formula

ThO2

Pubchem CID

169899

MDL Number

N/A

EC No.

253-453-3

Beilstein Registry No.

N/A

IUPAC Name

Oxygen(-2)anion; thorium(=4) cation

SMILES

O=[Th]=O

InchI Identifier

InChI=1S/2O.Th

InchI Key

ZCUFMDLYAMJYST-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 Thorium products. Thorium (atomic symbol: Th, atomic number: 90) is a Block F, Group 3, Period 7 element with an atomic weight of 232.03806. The number of electrons in each of thorium's shells is [2, 8, 18, 32, 18, 10, 2] and its electron configuration is [Rn] 6d2 7s2. Thorium Bohr ModelThe thorium atom has a radius of 179 pm and a Van der Waals radius of 237 pm. Thorium was first discovered by Jöns Jakob Berzelius in 1829. The name Thorium originates from the Scandinavian god Thor, the Norse god of war and thunder. Elemental ThoriumIn its elemental form, thorium has a silvery, sometimes black-tarnished, appearance. It is found in small amounts in most rocks and soils. Thorium is a radioactive element that is currently the best contender for replacing uranium as nuclear fuel for nuclear reactors. It provides greater safety benefits, an absence of non-fertile isotopes, and it is both more available and abundant in the Earth's crust than uranium.

Recent Research

Separation of thorium and uranium in nitric acid solution using silica based anion exchange resin., Chen, Yanliang, Wei Yuezhou, He Linfeng, and Tang Fangdong , J Chromatogr A, 2016 Sep 30, Volume 1466, p.37-41, (2016)

Modeling of thorium (IV) ions adsorption onto a novel adsorbent material silicon dioxide nano-balls using response surface methodology., Kaynar, Ümit H., Şabikoğlu Israfil, Kaynar Sermin Çam, and Eral Meral , Appl Radiat Isot, 2016 Sep, Volume 115, p.280-8, (2016)

Removal of thorium (IV) ions from aqueous solution by a novel nanoporous ZnO: Isotherms, kinetic and thermodynamic studies., Kaynar, Ümit H., Ayvacıklı Mehmet, Hiçsönmez Ümran, and Kaynar Sermin Çam , J Environ Radioact, 2015 Dec, Volume 150, p.145-51, (2015)

Stability of a new cubic monoxide of Thorium under pressure., Sun, Weiwei, Luo Wei, and Ahuja Rajeev , Sci Rep, 2015, Volume 5, p.13740, (2015)

Cysteamine- and graphene oxide-mediated copper nanoparticle decoration on reverse osmosis membrane for enhanced anti-microbial performance., Ma, Wen, Soroush Adel, Luong Tran Van Anh, and Rahaman Md Saifur , J Colloid Interface Sci, 2017 Sep 01, Volume 501, p.330-340, (2017)

One-step synthesis of porous copper oxide for electrochemical sensing of acetylsalicylic acid in the real sample., Sivakumar, Mani, Sakthivel Mani, Chen Shen-Ming, Cheng Yi-Hui, and Pandi Karuppiah , J Colloid Interface Sci, 2017 Sep 01, Volume 501, p.350-356, (2017)

Study on dynamic properties of the photoexcited charge carriers at anatase TiO2 nanowires/fluorine doped tin oxide interface., Qiu, Qingqing, Xu Lingling, Wang Dejun, Lin Yanhong, and Xie Tengfeng , J Colloid Interface Sci, 2017 Sep 01, Volume 501, p.273-281, (2017)

Synthesis and loading-dependent characteristics of nitrogen-doped graphene foam/carbon nanotube/manganese oxide ternary composite electrodes for high performance supercapacitors., Cheng, Tao, Yu Baozhi, Cao Linli, Tan Huiyun, Li Xinghua, Zheng Xinliang, Li Weilong, Ren Zhaoyu, and Bai Jinbo , J Colloid Interface Sci, 2017 Sep 01, Volume 501, p.1-10, (2017)

SBA-15 templating synthesis of mesoporous bismuth oxide for selective removal of iodide., Zhang, Liping, and Jaroniec Mietek , J Colloid Interface Sci, 2017 Sep 01, Volume 501, p.248-255, (2017)

Bio-sensing applications of cerium oxide nanoparticles: Advantages and disadvantages., Charbgoo, Fahimeh, Ramezani Mohammad, and Darroudi Majid , Biosens Bioelectron, 2017 Oct 15, Volume 96, p.33-43, (2017)

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June 23, 2017
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