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Atomfair Diethyltelluride C4H10Te

Description Diethyltelluride (CAS No. 627-54-3) is a high-purity organotellurium compound with the molecular formula C4H10Te and IUPAC name ethyltellanylethane . This specialized chemical is widely utilized in advanced material synthesis, particularly in the production of semiconductor nanomaterials and metalorganic chemical vapor deposition (MOCVD) processes. As a volatile tellurium precursor, it offers excellent reactivity and controlled decomposition properties for precise thin-film deposition. Our product undergoes rigorous quality control to ensure optimal purity (>98%) and consistency for research and industrial applications. Proper handling under inert atmosphere is recommended due to its air-sensitive nature and potential toxicity.

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Description

Description

Diethyltelluride (CAS No. 627-54-3) is a high-purity organotellurium compound with the molecular formula C4H10Te and IUPAC name ethyltellanylethane. This specialized chemical is widely utilized in advanced material synthesis, particularly in the production of semiconductor nanomaterials and metalorganic chemical vapor deposition (MOCVD) processes. As a volatile tellurium precursor, it offers excellent reactivity and controlled decomposition properties for precise thin-film deposition. Our product undergoes rigorous quality control to ensure optimal purity (>98%) and consistency for research and industrial applications. Proper handling under inert atmosphere is recommended due to its air-sensitive nature and potential toxicity.

  • CAS No: 627-54-3
  • Molecular Formula: C4H10Te
  • Molecular Weight: 185.7
  • Exact Mass: 187.9844731
  • Monoisotopic Mass: 187.9844731
  • IUPAC Name: ethyltellanylethane
  • SMILES: CC[Te]CC
  • Synonyms: Diethyl telluride, Diethyltelluride, 627-54-3, Diethyltellurium, 1,1′-Tellurobisethane

Application

Diethyltelluride serves as a key precursor in the synthesis of cadmium telluride (CdTe) and mercury cadmium telluride (MCT) semiconductor materials used in infrared detectors and photovoltaic devices. It finds particular utility in metalorganic vapor phase epitaxy (MOVPE) for growing II-VI compound semiconductors with precise stoichiometric control. Researchers also employ this compound in nanoparticle synthesis and as a tellurium source in organometallic chemistry reactions.

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