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Lutetium Sulfate Solution

CAS #:

Linear Formula:

Lu2(SO4)3

MDL Number:

MFCD00011499

EC No.:

239-074-6

ORDER

PRODUCT Product Code ORDER SAFETY DATA TECHNICAL DATA
(2N) 99% Lutetium Sulfate Solution
LU-SAT-02-SOL
Pricing > SDS > Data Sheet >
(3N) 99.9% Lutetium Sulfate Solution
LU-SAT-03-SOL
Pricing > SDS > Data Sheet >
(4N) 99.99% Lutetium Sulfate Solution
LU-SAT-04-SOL
Pricing > SDS > Data Sheet >
(5N) 99.999% Lutetium Sulfate Solution
LU-SAT-05-SOL
Pricing > SDS > Data Sheet >

Lutetium Sulfate Solution Properties (Theoretical)

Compound Formula Lu2O12S3
Molecular Weight 638.12
Appearance White to clear liquid
Melting Point N/A
Boiling Point 330 °C (2102 °F)
Density N/A
Solubility in H2O N/A
Exact Mass 637.737
Monoisotopic Mass 637.737

Lutetium Sulfate Solution Health & Safety Information

Signal Word Warning
Hazard Statements H319
Hazard Codes Xi
Risk Codes 36
Safety Statements 26-27-36/37/39
RTECS Number N/A
Transport Information N/A
WGK Germany 3
MSDS / SDS

About Lutetium Sulfate Solution

Sulfate IonLutetium Sulfate Solutions are moderate to highly concentrated liquid solutions of Lutetium Sulfate. They are an excellent source of Lutetium Sulfate for applications requiring solubilized Compound Solutions Packaging, Bulk Quantity materials. American Elements can prepare dissolved homogeneous solutions at customer specified concentrations or to the maximum stoichiometric concentration. Packaging is available in 55 gallon drums, smaller units and larger liquid totes. American Elements maintains solution production facilities in the United States, Northern Europe (Liverpool, UK), Southern Europe (Milan, Italy), Australia and China to allow for lower freight costs and quicker delivery to our customers. American Elements metal and rare earth compound solutions have numerous applications, but are commonly used in petrochemical cracking and automotive catalysts, water treatment, plating, textiles, research and in optic, laser, crystal and glass applications. Ultra high purity and high purity compositions improve both optical quality and usefulness as scientific standards. Nanoscale elemental powders and suspensions, as alternative high surface area forms, may be considered. We also produce Lutetium Sulfate Powder. Sulfate compounds are salts or esters of sulfuric acid formed by replacing one or both of the hydrogens with a metal. Most metal sulfate compounds are readily soluble in water for uses such as water treatment, unlike fluorides and oxides which tend to be insoluble. Organometallic forms are soluble in organic solutions and sometimes in both aqueous and organic solutions. Metallic ions can also be dispersed utilizing suspended or coated nanoparticles and deposited utilizing sputtering targets and evaporation materials for uses such as solar cells and fuel cells. . American Elements produces to many standard grades when applicable, including Mil Spec (military grade); ACS, Reagent and Technical Grade; Food, Agricultural and Pharmaceutical Grade; Optical Grade, USP and EP/BP (European Pharmacopoeia/British Pharmacopoeia) and follows applicable ASTM testing standards. Typical and custom packaging is available. Additional technical, research and safety (MSDS) information is available as is a Reference Calculator for converting relevant units of measurement.

Lutetium Sulfate Solution Synonyms

Lutetium(III) sulfate hydrate, lutetium(3+) cation trisulfate hydrate

Chemical Identifiers

Linear Formula Lu2(SO4)3
MDL Number MFCD00011499
EC No. 239-074-6
Beilstein Registry No. N/A
Pubchem CID 167223
IUPAC Name lutetium(3+) trisulfate
SMILES [Lu+3].[Lu+3].[ O-]S(=O)(=O)[ O-].[O-]S([O-]) (=O)=O.[O-]S( [O-])(=O)=O.O
InchI Identifier InChI=1S/2Lu.3 H2O4S.H2O/c;; 3*1-5(2,3)4;/h;;3 *(H2,1,2,3,4);1H 2/q2*+3;;;;/p-6
InchI Key BVHRLVMTECHAMB-UHFFFAOYSA-H

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 Lutetium products. Lutetium (atomic symbol: Lu, atomic number: 71) is a Block F, Group 3, Period 6 element with an atomic weight of 174.9668. The number of electrons in each of Lutetium's shells is [2, 8, 18, 32, 9, 2] and its electron configuration is [Xe] 4f15 5d1 6s2.Lutetium Bohr Model In its elemental form, lutetium has a silvery-white appearance. The lutetium atom has a radius of 174 pm and a Van der Waals radius of 221 pm. Lutetium was discovered and first isolated by Georges Urbain, Carl Auer von Welsbach and Charles James in 1906, all independently of each other.Elemental Lutetium Urbain was awarded the naming honor because he published his findings first. Lutetium is the last member of the rare earth series. Unlike most rare earths it lacks a magnetic moment. It has the smallest metallic radius of any rare earth and it is perhaps the least naturally abundant of the lanthanides. The most common source of commercially produced lutetium is the mineral monazite. The name lutetium originates from the Latin word Lutetia, meaning Paris. Lutetium is found with almost all other rare earth metals, but it never occurs naturally by itself.

See more Sulfur products. Sulfur (or Sulphur) (atomic symbol: S, atomic number: 16) is a Block P, Group 16, Period 3 element with an atomic radius of 32.066. Sulfur Bohr ModelThe number of electrons in each of Sulfur's shells is 2, 8, 6 and its electron configuration is [Ne] 3s2 3p4. In its elemental form, sulfur has a light yellow appearance. The sulfur atom has a covalent radius of 105 pm and a Van der Waals radius of 180 pm. In nature, sulfur can be found in hot springs, meteorites, volcanoes, and as galena, gypsum, and epsom salts. Sulfur has been known since ancient times but was not accepted as an element until 1777, when Antoine Lavoisier helped to convince the scientific community that it was an element and not a compound.

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