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Atomfair Potassium selenide K2Se

Description Potassium Selenide (K2Se) is an inorganic compound composed of potassium cations (K+) and selenide anions (Se2?). This highly reactive, moisture-sensitive solid is typically handled under inert conditions due to its tendency to hydrolyze in air. With a molecular weight of 157.16 g/mol and CAS number 1312-74-9, it appears as a crystalline or powdered material with applications in specialized chemical synthesis and materials science. Our high-purity Potassium Selenide is rigorously tested for composition and reactivity, ensuring consistent performance in research and industrial processes. Available in various quantities with customizable packaging options to meet your laboratory needs.

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Description

Description

Potassium Selenide (K2Se) is an inorganic compound composed of potassium cations (K+) and selenide anions (Se2?). This highly reactive, moisture-sensitive solid is typically handled under inert conditions due to its tendency to hydrolyze in air. With a molecular weight of 157.16 g/mol and CAS number 1312-74-9, it appears as a crystalline or powdered material with applications in specialized chemical synthesis and materials science. Our high-purity Potassium Selenide is rigorously tested for composition and reactivity, ensuring consistent performance in research and industrial processes. Available in various quantities with customizable packaging options to meet your laboratory needs.

  • CAS No: 1312-74-9
  • Molecular Formula: K2Se
  • Molecular Weight: 157.17
  • Exact Mass: 157.84393
  • Monoisotopic Mass: 157.84393
  • IUPAC Name: dipotassium;selenium(2-)
  • SMILES: [K+].[K+].[Se-2]
  • Synonyms: Potassium selenide, Dipotassium selenide, Potassium selenide (K2Se), 5B5516VCNR, UNII-5B5516VCNR

Application

Potassium Selenide is primarily used as a precursor in the synthesis of selenium-containing compounds and nanomaterials. It serves as a key reagent in the production of selenide-based semiconductors and optoelectronic materials. Researchers also employ it in solid-state chemistry for exploring novel chalcogenide phases.

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