Atomfair Bis(4-biphenylyl)amine C24H19N

Description Bis(4-biphenylyl)amine (CAS No. 102113-98-4) is a high-purity organic compound with the molecular formula C24H19N. This aromatic amine features a central nitrogen atom bonded to two biphenyl groups, making it a valuable building block for advanced materials research. The compound is supplied as a crystalline solid with typical purity ??98% (HPLC), ensuring consistent performance in sensitive applications. Its extended conjugated system and electron-rich nature make it particularly useful in optoelectronic applications. Careful handling under inert atmosphere is recommended due to potential sensitivity to oxidation. Each batch is thoroughly characterized by NMR, HPLC, and mass spectrometry to guarantee quality and reproducibility…

Description

Bis(4-biphenylyl)amine (CAS No. 102113-98-4) is a high-purity organic compound with the molecular formula C₂₄H₁₉N. This aromatic amine features a central nitrogen atom bonded to two biphenyl groups, making it a valuable building block for advanced materials research. The compound is supplied as a crystalline solid with typical purity ??98% (HPLC), ensuring consistent performance in sensitive applications. Its extended conjugated system and electron-rich nature make it particularly useful in optoelectronic applications. Careful handling under inert atmosphere is recommended due to potential sensitivity to oxidation. Each batch is thoroughly characterized by NMR, HPLC, and mass spectrometry to guarantee quality and reproducibility for your research needs.

CAS No: 102113-98-4
Molecular Formula: C24H19N
Molecular Weight: 321.4
Exact Mass: 321.151749610
Monoisotopic Mass: 321.151749610
IUPAC Name: 4-phenyl-N-(4-phenylphenyl)aniline
SMILES: C1=CC=C(C=C1)C2=CC=C(C=C2)NC3=CC=C(C=C3)C4=CC=CC=C4
Synonyms: Bis(4-biphenylyl)amine, 102113-98-4, Bis-biphenyl-4-yl-amine, 4,4′-Iminobis(biphenyl), di([1,1′-biphenyl]-4-yl)amine

Application

Bis(4-biphenylyl)amine serves as a key intermediate in the synthesis of organic semiconductors and hole-transport materials for OLED devices. Researchers utilize this compound in the development of novel electroluminescent materials due to its excellent charge transport properties. The material finds application in photovoltaic research as a component in donor-acceptor systems for organic solar cells. Its rigid, planar structure makes it suitable for studying molecular packing in crystalline organic electronics.

If you are interested or have any questions, please contact us at support@atomfair.com