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Atomfair Cadmium phosphide Cd3P2

Description Cadmium Phosphide (Cd3P2) is an inorganic semiconductor compound with the molecular formula Cd3P2. This high-purity material is synthesized under controlled conditions to ensure optimal performance in advanced research and industrial applications. Cadmium phosphide exhibits unique optoelectronic properties, making it suitable for use in photodetectors, photovoltaic devices, and semiconductor research. Available in powder or crystalline form, our product is rigorously tested for purity, crystallinity, and stoichiometric consistency. Each batch is accompanied by a detailed Certificate of Analysis (CoA) to guarantee compliance with industry standards. Proper handling precautions are required due to its toxicity and reactivity.

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Description

Description

Cadmium Phosphide (Cd3P2) is an inorganic semiconductor compound with the molecular formula Cd3P2. This high-purity material is synthesized under controlled conditions to ensure optimal performance in advanced research and industrial applications. Cadmium phosphide exhibits unique optoelectronic properties, making it suitable for use in photodetectors, photovoltaic devices, and semiconductor research. Available in powder or crystalline form, our product is rigorously tested for purity, crystallinity, and stoichiometric consistency. Each batch is accompanied by a detailed Certificate of Analysis (CoA) to guarantee compliance with industry standards. Proper handling precautions are required due to its toxicity and reactivity.

  • CAS No: 12069-85-1
  • Molecular Formula: Cd3P2
  • Molecular Weight: 399.19
  • Exact Mass: 401.657018
  • Monoisotopic Mass: 403.657619
  • IUPAC Name: cadmium(2+);phosphorus(3-)
  • SMILES: [P-3].[P-3].[Cd+2].[Cd+2].[Cd+2]
  • Synonyms: Cadmium phosphide, Tricadmium diphosphide, EINECS 234-595-5, 234-595-5, 12014-28-7

Application

Cadmium phosphide (Cd3P2) is primarily used in semiconductor research due to its narrow bandgap and high electron mobility. It serves as a key material in infrared detectors and photovoltaic applications. Researchers also explore its potential in quantum dot synthesis and optoelectronic device fabrication. Its stability and tunable properties make it valuable for experimental solid-state physics.

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