Rare Earth Salts
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Cerium Silicide CeSi2 CAS 12014-85-6 For Semiconductor Material Applications
Cerium Silicide CeSi2 CAS 12014-85-6 For Semiconductor Material Applications Name: Cerium Silicide Molecular formula: CeSi2 CAS: 12014-85-6 Molecular weight: 196.29 Description: Specification: Name CeSi2_3N Molecular formula CeSi2 CAS 12014-85-6 Ce % ≥71.0 Si % ≥28.0 other impurities % ≤0.10 property Dark grey bulk Application area Cerium silicide is used as a surrogate material to investigate the feasibility of high-energy ball milling and Spark Plasma Sintering (SPS) for
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Europium(III) Oxalate Hydrate Eu2(C2O4)3 nH2O CAS 152864-32-9 For High Purity Europium Salts
Europium(III) Oxalate Hydrate Eu2(C2O4)3 nH2O CAS 152864-32-9 For High Purity Europium Salts Name: Europium(III) oxalate hydrate Molecular formula: Eu2(C2O4)3·nH2O CAS: 152864-32-9 Molecular weight: 586.01 Description: Specification: NameEu2(C2O4)3_5NEu2(C2O4)3_4NMolecular formulaEu2(C2O4)3 nH2OEu2(C2O4)3 nH2OCAS152864-32-9152864-32-9Total rare earth TREO%≥45.50≥45.35Eu2O3/TREO%≥99.999≥99.99Rare earth impurities%≤0.001≤0.01Fe2O3%≤0.0003≤0.001SiO2%≤0.002≤0.005CaO%≤0.002≤0
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Ytterbium(III) Oxalate Hydrate Yb2(C2O4)3 nH2O CAS 58176-74-2 For High Purity Ytterbium Salts
Ytterbium(III) Oxalate Hydrate Yb2(C2O4)3 nH2O CAS 58176-74-2 For High Purity Ytterbium Salts Name: Ytterbium(III) oxalate hydrate Molecular formula: Yb2(C2O4)3·nH2O CAS: 58176-74-2 Molecular weight: 610.14 Description: Specification: NameYb2(C2O4)3_5NYb2(C2O4)3_4NMolecular formulaYb2(C2O4)3 nH2OYb2(C2O4)3 nH2OCAS58176-74-258176-74-2Total rare earth TREO%≥44.35≥44.20Yb2O3/TREO%≥99.999≥99.99Rare earth impurities%≤0.001≤0.01Fe2O3%≤0.0003≤0.001SiO2%≤0.002≤0.005CaO%≤0.002≤0
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Praseodymium Oxalate Hydrate Pr2(C2O4)3 nH2O CAS 24992-60-7 For Chemical Reagents
Praseodymium Oxalate Hydrate Pr2(C2O4)3 nH2O CAS 24992-60-7 For Chemical Reagents Name: Praseodymium oxalate hydrate Molecular formula: Pr2(C2O4)3·nH2O CAS: 24992-60-7 Molecular weight: 545.87 Description: Specification: Name Pr2(C2O4)3_4N Pr2(C2O4)3_3N Molecular formula Pr2(C2O4)3 nH2O Pr2(C2O4)3 nH2O CAS 24992-60-7 24992-60-7 Total rare earth TREO % ≥44.0 ≥43.0 Pr6O11/TREO % ≥99.99 ≥99.9 Rare earth impurities % ≤0.01 ≤0.05 Fe2O3 % ≤0.001 ≤0.005 SiO2 % ≤0.002 ≤0.005 CaO % ≤0
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Lanthanum(III) Oxalate Hydrate La2(C2O4)3 nH2O CAS 537-03-1 For High Purity Lanthanum Salts
Lanthanum(III) Oxalate Hydrate La2(C2O4)3 nH2O CAS 537-03-1 For High Purity Lanthanum Salts Name: Lanthanum(III) oxalate hydrate Molecular formula: La2(C2O4)3·nH2O CAS: 537-03-1 Molecular weight: 704.01 Description: Specification: NameLa2(C2O4)3_5NLa2(C2O4)3_4NMolecular formulaLa2(C2O4)3 nH2OLa2(C2O4)3 nH2OCAS537-03-1537-03-1Total rare earth TREO%≥47.5≥47.0La2O3/TREO%≥99.999≥99.99Rare earth impurities%≤0.001≤0.01Fe2O3%≤0.0003≤0.001SiO2%≤0.002≤0.005CaO%≤0.002≤0.005Chloride Cl-
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Dysprosium(III) Oxalate Hydrate Dy2(C2O4)3 nH2O CAS 24670-07-3 For High Purity Dysprosium Salts
Dysprosium(III) Oxalate Hydrate Dy2(C2O4)3 nH2O CAS 24670-07-3 For High Purity Dysprosium Salts Name: Dysprosium(III) oxalate hydrate Molecular formula: Dy2(C2O4)3·nH2O CAS: 24670-07-3 Molecular weight: 769.21 Description: Specification: NameDy2(C2O4)3_4NDy2(C2O4)3_3NMolecular formulaDy2(C2O4)3 nH2ODy2(C2O4)3 nH2OCAS24670-07-324670-07-3Total rare earth TREO%≥45.05≥44.05Dy2O3/TREO%≥99.99≥99.9Rare earth impurities%≤0.01≤0.05Fe2O3%≤0.001≤0.005SiO2%≤0.002≤0.005CaO%≤0.005≤0
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Lanthanum Boride Polycrystalline LaB6 CAS 12008-21-8 For High-power Electronic Tube Material
Lanthanum Boride Polycrystalline LaB6 CAS 12008-21-8 For High-power Electronic Tube Material Name: Lanthanum boride, Lanthanum hexaboride Molecular formula: LaB6 CAS: 12008-21-8 Molecular weight: 203.77 Description: Lanthanum hexaborate is a dark purple powder, which is difficult to dissolve in water and hydrochloric acid. In terms of chemical composition, lanthanum borate belongs to inorganic non-metallic materials, and in terms of material properties, it belongs to non
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Nickel Sulfate CAS: 7786-81-4 For Electroplating, Nickel Batteries
Nickel sulfate is an important inorganic chemical product, its core property is that as a raw material of electrolytic nickel, it plays a key role in the fields of electroplating, alloy manufacturing and battery materials. The appearance of the product is usually green or blue-green crystal, with good solubility and stability. Nickel sulfate in electroplating industry, can provide high-quality nickel plating layer, enhance the corrosion resistance and beauty of products; In
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High Purity 99.99% Scandium Carbonate Hydrate Sc2(CO3)3 nH2O CAS 5809-49-4
High Purity 99.99% Scandium Carbonate Hydrate Sc2(CO3)3 nH2O CAS 5809-49-4 Name: Scandium carbonate hydrate Molecular formula: Sc2(CO3)3·nH2O CAS: 5809-49-4 Molecular weight: 287.95 Description: Scandium carbonate is insoluble in water, soluble in dilute acid. CO2 is released when heated. When heated, basic carbonate is formed first, and then scandium oxide is formed by burning. Specification: Name Sc2(CO3)3_4N Sc2(CO3)3_3N Molecular formula Sc2(CO3)3 nH2O Sc2(CO3)3 nH2O CAS
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Cerium Boride Polycrystalline CeB6 CAS 12008-02-5 For High-power Electronic Tube Material
Cerium Boride Polycrystalline CeB6 CAS 12008-02-5 For High-power Electronic Tube Material Name: Cerium boride, Cerium hexaboride Molecular formula: CeB6 CAS: 12008-02-5 Molecular weight: 204.98 Description: Specification: Name CeB6_2N Molecular formula CeB6 CAS 12008-02-5 Total rare earth TREO % ≥78.0 CeO2/TREO % ≥99.99 Rare earth impurities % ≤0.1 Fe2O3 % ≤0.05 SiO2 % ≤0.01 CaO % ≤0.01 C % ≤0.3 property Dark blue powder Application area The best materials for making high
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Ytterbium Boride YbB6 CAS 12008-33-2 For Non-magnetic Narrow-band Semiconductor
Ytterbium Boride YbB6 CAS 12008-33-2 For Non-magnetic Narrow-band Semiconductor Name: Ytterbium boride, Ytterbium hexaboride Molecular formula: YbB6 CAS: 12008-33-2 Molecular weight: 237.91 Description: Ytterbium hexaborate is a black powder, which is difficult to dissolve in water and hydrochloric acid. At present, the preparation of ytterbium hexaborate is generally by boron carbide thermal reduction method, and the reaction formula is Yb2O3 + 3B4C--2YbB6 + 3CO; because of