Rare earth Compounds

 Rare earth elements are found in the Earth's crust. Because of their unique magnetic, luminescent, and electrochemical properties, as well as durability, and thermal stability, these elements play a crucial role in electronics, communications, advanced aviation, health care, and military hardware. 
The rare-earth elements form tens of thousands of compounds. AEM Rare Earth Elements has extensive experience manufacturing and sourcing a wide range of rare earth starting materials making us the supplier of choice for your production operations or laboratory use. AEM is best known for manufacturing the highest quality materials in the 99.9+% metals basis assay (ultra dry and ultra pure). We provide all kinds of Rare Earth compounds, including rare earth fluoride, rare earth nitrate, rare earth chloride, rare earth acetate, rare earth hydroxide, rare earth sulfate, etc.
  • Cerium (III) Chloride (CeCl3)
    Cerium(III) chloride (CeCl3), also known as cerous chloride or cerium trichloride, is a compound of cerium and chlorine. It is a white hygroscopic solid; it rapidly absorbs water on exposure to moist air to form a hydrate, which appears to be of variable composition, though the heptahydrate CeCl37 H2
  • Cerium (III) Nitrate (Ce(NO3)3 6H2O)
    Cerium Nitrate, is the optimum materials for manufacturing Cerium-doped catalyst, and also applied in making auto gauze covering. Cerium is added to the dominant catalyst for the production of styrene from methylbenzene to improve styrene formation. It is used in FCC catalysts containing zeolites to
  • Cerium Acetate (Ce(C2H3O2)3•4H2O)
    Molecular formula: Ce(C2H3O2)34H2O Molecular Weight: 389.12 CAS NO. : 389.12 Appearance properties: white flake crystals; soluble in water. Purpose: to manufacture ternary catalystc and chemical reagents, etc. Package: vacuum packaging:1, 2, 5, 25 or 50 kilos per piece. paper bareel packageing: 25 o
  • Cerium Fluoride (CeF3)
    Cerium Fluoride, is the important raw material for polishing powder, special glass, metallurgical applications. In glass industry, it is considered to be the most efficient glass polishing agent for precision optical polishing. It is also used to decolorize glass by keeping iron in its ferrous state.
  • Cerium Hydroxide (Ce(HO)4 )
    Molecular formula: Ce(HO)4 Molecular Weight: 208.12 CAS NO. : 15785-09-8 Appearance properties: canary yellow granular or powder, soluble in acids and insolube in water. Purpose: to manufacture catalysts, intermediates of cersium salt and decolorizer settling agent for making glass, etc. Package: pa
  • Cerium Sulfate (Ce(SO4)2•4H2O)
    Molecular Formula: Ce(SO4)24H2O Molecular Weight: 372.59 CAS NO. : 18618-55-8 Appearance properties: canary yellow crystals or powder; freely soluble in water and ethanol, deliquescent, sealed preservation. Purpose: to manufacture catalysts, raw materials of cersium salt, additives of cemented carbi
  • Dysprosium Acetate (Dy(C2H3O2)3)
    Molecular formula: Dy(C2H3O2)3 Molecular Weight: 339.5 CAS NO. : 15280-55-4 Appearance properties: canary yellow crystals; freely soluble in water; deliquescent; sealed preservation. Purpose: to manufacture dysprosium-iron compounds, intermediates of dysprosium compounds and chemical reagents, etc.
  • Dysprosium Fluoride (DyF3)
    Dysprosium Fluoride has specialized uses in laser glass, phosphors, Dysprosium halide lamp and also as the main raw materials for making Dysprosium Metal. Dysprosium is used in conjunction with Vanadium and other elements, in making laser materials and commercial lighting. Dysprosium is one of the c
  • Dysprosium Nitrate (Dy(NO3)3)
    Dysprosium Nitrate has specialized uses in ceramics, glass, phosphors, lasers and Dysprosium Metal halide lamp. High purity of Dysprosium Nitrate is used in electronics industry as an antireflection coating in photoelectric devices. Dysprosium is used in conjunction with Vanadium and other elements,
  • Dysprosium Sulfate (Dy2(SO4)3•8H2O)
    Molecular Formula: Dy2(SO4)38H2O Molecular Weight: 757.00 CAS NO. : 10031-50-2 Appearance properties: turquoise crystals; soluble in water; deliquescent; sealed preservation. Purpose: to manufacture intermediates of dysprosium compounds and chemical reagents, etc. Package: vacuum packaging:1, 2, 5,
  • Erbium Acetate (Er(C2H3O2)3)
    Erbium Nitrate, an important colourant in glass manufacturing and porcelain enamel glazes, and also as main raw material for producing high purity Erbium Oxide. High purity Erbium Nitrate is applied as dopant in making optical fibre and amplifier. It is particularly useful as an amplifier for fiber o
  • Erbium Fluoride (ErF3)
    Erbium Fluoride (ErF3), also known as Erbium Trifluoride, Erbium (III) fluoride, Trifluoroerbium, is a crystalline ionic compound. Purity: 99.9% Chemical Formula: ErF3 Shape: Powder Melting point: 1350℃ Formula Weight: 224.25 Application of Erbium Fluoride: Erbium Fluoride is widely used in optical
  • Erbium Nitrate (Er(NO3)3)
    Erbium Nitrate, an important colourant in glass manufacturing and porcelain enamel glazes, and also as main raw material for producing high purity Erbium Oxide. High purity Erbium Nitrate is applied as dopant in making optical fibre and amplifier. It is particularly useful as an amplifier for fiber o
  • Europium Acetate (Eu(C2H3O2)3•4H2O)
    Molecular formula: Eu(C2H3O2)34H2O Molecular Weight: 400.97 CAS NO. : 62667-64-5 Appearance properties: grey or lilac crystalline powder; freely soluble in water; deliquescent; sealed preservation. Purpose: to manufacture additives of alloy materials and chemical reagents, etc. Package: vacuum packa
  • Europium Fluoride (EuF3)
    Compounds including the chlorides, sulfates, and nitrates, are soluble in water or polar organic solvent. Lipophilic europium complexes feature acetylacetonate-like ligands. Europium compounds tend to exist in the trivalent oxidation state under most conditions. These compounds feature Eu(III) bound
  • Europium Nitrate (Eu(NO3)3)
    Compounds including the chlorides, sulfates, and nitrates, are soluble in water or polar organic solvent. Lipophilic europium complexes feature acetylacetonate-like ligands. Europium compounds tend to exist in the trivalent oxidation state under most conditions. These compounds feature Eu(III) bound
  • Europium Sulfate (Eu2(SO4)3•8H2O)
    Molecular Formula: Eu2(SO4)38H2O Molecular Weight: 736.23 CAS NO. : 10031-54-6 Appearance properties: grey crystals; soluble in water; deliquescent; sealed preservation Purpose: to manufacture intermediates of europium compounds and chemical reagents, etc. Package: vacuum packaging:1, 2, 5, 25 or 50
  • Gadolinium (III) Chloride Hydrate (GdCl3)
    Gadolinium (III) chloride hydrate is a rare earth compound of Gadolinium. It is water-soluble and hygroscopic. Gadolinium is a rare earth element with a high magnetic moment. Due to its magnetic moment, Gadolinium is able to enhance signal intensity by reducing relaxation times. It is also used for s
  • Gadolinium (III) Nitrate (Gd(NO3)3)
    Gadolinium (III) nitrate is a rare earth compound of Gadolinium. It is soluble in water and readily soluble in strong mineral acids. Gadolinium nitrate, like all nitrates, is an oxidizing agent. Gadolinium is a rare earth element with a high magnetic moment. Due to its magnetic moment, Gadolinium is
  • Gadolinium Acetate (Gd(C2H3O2)3•4H2O)
    Molecular formula: Gd(C2H3O2)34H2O Molecular Weight: 406.26 CAS NO. : 15280-53-2 Appearance properties: white or colorless crystals; freely soluble in water; deliquescent; sealed preservation. Purpose: to manufacture additives of alloy materials and chemical reagents, etc Package: vacuum packaging:1
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