13471-30-2Relevant academic research and scientific papers
Acid-catalyzed oxidative cross-coupling of acridans with silyl diazoenolates and a Rh-catalyzed rearrangement: two-step synthesis of γ-(9-acridanylidene)-β-keto esters
Li, Weiyu,Xu, Hao,Zhou, Lei
, p. 5649 - 5657 (2021/07/02)
A MsOH-catalyzed oxidative cross-coupling of acridans and silyl diazoenolates and a Rh2(OAc)4-catalyzed rearrangement of the resultant diazo products are described. The reactions provide various γ-(9-acridanylidene)-β-keto esters in good yields, which bear an active α-methylene unit for further functionalization.
Synthesis, Structure and Properties of Fused π-Extended Acridone Derivatives
Gao, Hongshuai,Zhang, Gang
supporting information, (2020/08/26)
Benzene- and naphthalene-fused acridone derivatives with hexyl and phenyl groups at the amino position were synthesized and their properties were investigated experimentally and computationally. All the structures of these fused π-extended acridone derivatives were unambiguously confirmed by single-crystal X-ray analysis, which revealed the presence of face-to-face π–π stackings along the acridone moiety and the intermolecular hydrogen bond-directed molecular packings of the phenyl-substituted acridone derivatives in the crystals. Moreover, the dimerization of linearly fused acridone derivative was observed after storing the crystals over months. The benzene ring at the turning point of the angularly fused acridone derivatives contained relatively longer and shorter C–C bonds, which affected the molecular conjugation, as confirmed by the results of photophysical characterization and the study of the aromaticity. Mobility calculations based on the molecular packings in the single crystals showed that the linearly fused acridone derivatives bearing better electron and hole mobilities are good candidates of organic functional materials.
A photochemical route to benzo[a]acridines
Jayabalan,Shanmugam
, p. 217 - 220 (2007/10/02)
A facile synthesis of benzo[a]acridines based on photochemical transformation of 4-hydroxy-2-(2-phenylethenyl)quinolines is reported. The precursor is readily obtained by condensation of a 4-hydroxy-2-methylquinoline derivative with an aryl aldehyde.
