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Atomfair Trimethylantimony TMSb C3H9Sb
Description Trimethylantimony (CAS No. 594-10-5), also known as trimethylstibane, is a highly specialized organometallic compound with the molecular formula C3H9Sb . This volatile liquid is a key reagent in advanced chemical synthesis and materials science applications, particularly in the deposition of antimony-containing thin films via chemical vapor deposition (CVD) and metalorganic chemical vapor deposition (MOCVD). Its high purity and stability make it indispensable for researchers working in semiconductor fabrication, nanotechnology, and catalysis. Trimethylantimony is packaged under inert gas to ensure maximum shelf life and reactivity. Suitable for use in controlled environments, this compound requires proper handling due to its pyrophoric…
Description
Description
Trimethylantimony (CAS No. 594-10-5), also known as trimethylstibane, is a highly specialized organometallic compound with the molecular formula C3H9Sb. This volatile liquid is a key reagent in advanced chemical synthesis and materials science applications, particularly in the deposition of antimony-containing thin films via chemical vapor deposition (CVD) and metalorganic chemical vapor deposition (MOCVD). Its high purity and stability make it indispensable for researchers working in semiconductor fabrication, nanotechnology, and catalysis. Trimethylantimony is packaged under inert gas to ensure maximum shelf life and reactivity. Suitable for use in controlled environments, this compound requires proper handling due to its pyrophoric nature and toxicity. Available in various quantities to meet both laboratory and industrial-scale demands.
- CAS No: 594-10-5
- Molecular Formula: C3H9Sb
- Molecular Weight: 166.86
- Exact Mass: 165.97424
- Monoisotopic Mass: 165.97424
- IUPAC Name: trimethylstibane
- SMILES: C[Sb](C)C
- Synonyms: Trimethylantimony, Trimethylstibine, STIBINE, TRIMETHYL-, EINECS 209-824-7, BRN 3902982
Application
Trimethylantimony is primarily used as a precursor in the semiconductor industry for the deposition of antimony-based thin films, such as antimonides, via MOCVD. It also serves as a catalyst in organic synthesis and polymerization reactions. Researchers utilize this compound in the development of advanced optoelectronic materials, including infrared detectors and high-efficiency solar cells. Its role in nanotechnology extends to the fabrication of quantum dots and other nanostructured materials.
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