Atomfair 2,3,7,8-Tetrafluorothianthrene C12H4F4S2

Description 2,3,7,8-Tetrafluorothianthrene (CAS No. 1225203-47-3) is a high-purity fluorinated organic compound with the molecular formula C12H4F4S2. This heterocyclic aromatic compound features a thianthrene core structure with four fluorine atoms strategically positioned at the 2, 3, 7, and 8 positions, enhancing its electronic and chemical properties. Ideal for advanced research applications, this compound is characterized by its exceptional stability and reactivity, making it a valuable building block in materials science, organic synthesis, and pharmaceutical development. Each batch is rigorously tested for purity (typically ??95% by HPLC or GC analysis) and is supplied in secure, chemically resistant packaging to ensure integrity during…

Description

2,3,7,8-Tetrafluorothianthrene (CAS No. 1225203-47-3) is a high-purity fluorinated organic compound with the molecular formula C₁₂H₄F₄S₂. This heterocyclic aromatic compound features a thianthrene core structure with four fluorine atoms strategically positioned at the 2, 3, 7, and 8 positions, enhancing its electronic and chemical properties. Ideal for advanced research applications, this compound is characterized by its exceptional stability and reactivity, making it a valuable building block in materials science, organic synthesis, and pharmaceutical development. Each batch is rigorously tested for purity (typically ??95% by HPLC or GC analysis) and is supplied in secure, chemically resistant packaging to ensure integrity during storage and transport.

CAS No: 1225203-47-3
Molecular Formula: C12H4F4S2
Molecular Weight: 288.3
Exact Mass: 287.96905512
Monoisotopic Mass: 287.96905512
IUPAC Name: 2,3,7,8-tetrafluorothianthrene
SMILES: C1=C(C(=CC2=C1SC3=C(S2)C=C(C(=C3)F)F)F)F
Synonyms: 2,3,7,8-tetrafluorothianthrene, 1225203-47-3, 838-751-9, MFCD31924335, SCHEMBL2316388

Application

2,3,7,8-Tetrafluorothianthrene is widely utilized as a key intermediate in the synthesis of fluorinated organic electronic materials, including OLEDs and conductive polymers. Its electron-deficient structure makes it suitable for studying charge-transfer complexes and redox-active systems in supramolecular chemistry. Researchers also employ this compound in the development of novel fluorinated ligands for catalysis and as a precursor for sulfur-containing specialty chemicals.

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