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.
  • Gadolinium Fluoride (GdF3)
    Gadolinium Fluoride (GdF3), also known as Gadolinium Trifluoride, Trifluorogadolinium and Gadolinium (III) Fluoride, is one of the important Gadolinium compounds. It is insoluble in water. Gadolinium Fluoride is used for making optical glass and dopant for Gadolinium Yttrium Garnets which have microw
  • Gadolinium Sulfate (Gd2 (SO4)3•8H2O)
    Molecular Formula: Gd2 (SO4)38H2O Molecular Weight: 746.80 CAS NO. : 13450-87-8 Appearance properties: white crystals; soluble in water; deliquescent; sealed preservation. Purpose: to manufacture intermediates of Gadolinium compounds and chemical reagents, etc. Package: vacuum packaging:1, 2, 5, 25
  • Holmium Acetate (Ho(C2H3O2)3)
    Molecular formula: Ho(C2H3O2)3 Molecular Weight: 341.93 CAS NO. : 14483-18-2 Appearance properties: canary yellow crystals; freely soluble in water; deliquescent; sealed preservation. Purpose: to manufacture intermediates of holmium compounds and chemical reagents, etc. Package: vacuum packaging:1,
  • Holmium Chloride (HoCl3)
    Holmium Chloride has specialized uses in ceramics, glass, phosphors and metal halide lamp, and dopant to garnet laser. Holmium lasers are used in medical, dental, and fiber-optical applications. Holmium is one of the colorants used for cubic zirconia and glass, providing yellow or red coloring. They
  • Holmium Fluoride (HoF3)
    Holmium Fluoride has specialized uses in ceramics, glass, phosphors and metal halide lamp, and dopant to garnet laser. Holmium lasers are used in medical, dental, and fiber-optical applications. Holmium is one of the colorants used for cubic zirconia and glass, providing yellow or red coloring. They
  • Holmium Nitrate (Ho(NO3)3)
    Holmium Nitrate has specialized uses in ceramics, glass, phosphors and metal halide lamp, and catalyst. Holmium is one of the colorants used for cubic zirconia and glass, providing yellow or red coloring. They are therefore used as a calibration standard for optical spectrophotometers,and are availa
  • Holmium Sulfate (Ho2(SO4)3•8H2O)
    Molecular Formula: Ho2(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 Holmium compounds and chemical reagents, etc. Package: vacuum packaging:1, 2, 5, 25
  • Lanthanum Acetate (La(C2H3O2)3•4H2O)
    Molecular formula: La(C2H3O2)34H2O Molecular Weight: 387.91 CAS NO. : 25721-92-0 Appearance properties: white or colorless crystals; freely soluble in water, deliquescent; sealed preservation. Purpose: to manufacture intermediates of Holmium compounds and chemical reagents, etc. Package: vacuum pack
  • Lanthanum Chloride (LaCl3)
    Lanthanum chloride is the inorganic compound with the formula LaCl3. It is a common salt but is mainly used in research. It is a white solid that is highly soluble in water and alcohols. AEM Deposition supplies our customers with high quality Lanthanum Chloride (LaCl3). Chemical Formula: LaCl3.xH2O D
  • Lanthanum Fluoride (LaF3)
    Lanthanum Fluoride (LaF3), or lanthanum trifluoride, is a high-melting, ionic compound. It has few applications such as uses in fiber optics, electrodes, fluorescent lamps and radiation applications. Lanthanum Fluoride, is mainly applied in specialty glass, water treatment and catalyst, and also as t
  • Lanthanum Hexaboride (LaB6)
    Lanthanum Hexaboride (LaB6, also called lanthanum boride and LaB6) is an inorganic chemical. With melting point 2528 K, LaB6 is a refractory ceramic material, which is insoluble in water or hydrochloric acid and very stable in vacuum. Stoichiometric samples are colored intense purple-violet, while b
  • Lanthanum Hydroxide (La(HO)3 )
    Molecular formula: La(HO)3 Molecular Weight: 189.91 CAS NO. : 14507-19-8 Appearance properties: white granular or powder; soluble in acids and insoluble in water. Purpose: to manufacture catalysts, intermediates of lanthanum salt and magnetic materials, etc. Package: paper barrel packageing: 25 or 5
  • Lanthanum Nitrate La(NO3)3
    Lanthanum Nitrate is mainly applied in specialty glass, water treatment and catalyst. Various compounds of Lanthanum and other rare-earth elements (Oxides, Chlorides, etc.) are components of various catalysis, such as petroleum cracking catalysts. Small amounts of Lanthanum added to steel improves i
  • Lanthanum Sulfate (La2(SO4)3•8H2O)
    Molecular Formula: La2(SO4)38H2O Molecular Weight: 709.80 CAS NO. : 57804-25-8 Appearance properties: colorless crystals; soluble in water; deliquescent; sealed preservation. Purpose: to manufacture intermediates of praseodymium compounds and chemical reagents, etc. Package: vacuum packaging:1, 2, 5
  • Lutetium Acetate (Lu(C2H3O2)3)
    Molecular formula: Lu(C2H3O2)3 Molecular Weight: 351.96 CAS NO. : 18779-08-3 Appearance properties: white or colorless crystals; freely soluble in water; deliquescent; sealed preservation. Purpose: to manufacture intermediates of lutetium compounds and chemical reagents, etc. Package: vacuum packagi
  • Lutetium Chloride (LuCl3)
    Lutetium chloride (LuCl3), also known as lutetium trichloride, is one of the important lutetium compounds. Compounds of lutetium always contain the element in the oxidation state +3. Aqueous solutions of most lutetium salts are colorless and form white crystalline solids upon drying, except the iodi
  • Lutetium Fluoride (LuF3)
    Lutetium fluoride (LuF3) is one of the important lutetium compounds. Compounds of lutetium always contain the element in the oxidation state +3. Aqueous solutions of most lutetium salts are colorless and form white crystalline solids upon drying, except the iodide. Lutetium salts, such as nitrate, s
  • Lutetium Nitrate (Lu(NO3)3)
    Lutetium (III) Nitrate is one of the important lutetium compounds. Compounds of lutetium always contain the element in the oxidation state +3. Aqueous solutions of most lutetium salts are colorless and form white crystalline solids upon drying, except the iodide. Lutetium salts, such as nitrate, sul
  • Neodymium (III) Fluoride (NdF3)
    Neodymium (III) Fluoride, also known as Neodymium Trifluoride, is a crystalline ionic compound. It is commonly used to make Nd - Mg alloys, glass, crystal and capacitors, magnetic materials. Neodymium Fluoride is mainly used for glass, crystal and capacitors, and is the main raw material for making N
  • Neodymium Acetate (Nd(C2H3O2)3•4H2O)
    Molecular formula: Nd(C2H3O2)34H2O Molecular Weight: 393.24 CAS NO. : 6192-13-8 Appearance properties: pink crystals; freely soluble in water; deliquescent; sealed preservation. Purpose: to manufacture catalysts, optical glasses, magnetic materials and chemical reagents, etc. Package: vacuum packagi
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