Atomfair Trimethylhydroxyindane C12H16O

Description Trimethylhydroxyindane (CAS: 158884-37-8) is a high-purity organic compound with the molecular formula C12H16O , widely utilized in pharmaceutical and fragrance research. Its IUPAC name, 1,2,2-trimethyl-3H-inden-1-ol , reflects its unique indane-derived structure with hydroxyl and methyl functional groups, making it a versatile intermediate for synthetic applications. This compound is rigorously tested for purity and stability, ensuring optimal performance in sensitive reactions. Available in various quantities, our Trimethylhydroxyindane is ideal for researchers requiring precise and reliable chemical building blocks. Each batch is accompanied by comprehensive analytical data, including GC/MS and NMR reports, to guarantee consistency and quality.

Description

Trimethylhydroxyindane (CAS: 158884-37-8) is a high-purity organic compound with the molecular formula C₁₂H₁₆O, widely utilized in pharmaceutical and fragrance research. Its IUPAC name, 1,2,2-trimethyl-3H-inden-1-ol, reflects its unique indane-derived structure with hydroxyl and methyl functional groups, making it a versatile intermediate for synthetic applications. This compound is rigorously tested for purity and stability, ensuring optimal performance in sensitive reactions. Available in various quantities, our Trimethylhydroxyindane is ideal for researchers requiring precise and reliable chemical building blocks. Each batch is accompanied by comprehensive analytical data, including GC/MS and NMR reports, to guarantee consistency and quality.

CAS No: 158884-37-8
Molecular Formula: C12H16O
Molecular Weight: 176.25
Exact Mass: 176.120115130
Monoisotopic Mass: 176.120115130
IUPAC Name: 1,2,2-trimethyl-3H-inden-1-ol
SMILES: CC1(CC2=CC=CC=C2C1(C)O)C
Synonyms: trimethylhydroxyindane, SCHEMBL2046731, DB-148688, 2,3-Dihydro-1,2,2-trimethyl-1H-inden-1-ol, 158884-37-8

Application

Trimethylhydroxyindane is primarily employed as a key intermediate in the synthesis of fragrances and flavoring agents due to its stable indane backbone and hydroxyl group reactivity. Researchers also explore its potential in pharmaceutical development, particularly in designing novel bioactive molecules. Its structural properties make it valuable in material science for creating specialized polymers and coatings.

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