6533b7cffe1ef96bd12582e1

RESEARCH PRODUCT

Ship-in-a-bottle synthesis of triphenylamine inside faujasite supercages and generation of the triphenylamminium radical ion

Hermenegildo GarcíaAntonio DoménechVicente FornésAntonio LeyvaBelén Ferrer

subject

Organic Chemistrychemistry.chemical_elementFaujasiteengineering.materialTriphenylaminePhotochemistryBiochemistryPhotoinduced electron transferchemistry.chemical_compoundchemistryRadical ionDrug DiscoveryengineeringFlash photolysisBifunctionalZeolitePalladium

description

Abstract The ship-in-a-bottle synthesis of triphenylamine encapsulated within basic X zeolite has been accomplished by reacting sodium diphenylamide with bromobenzene in the presence of a bifunctional palladium (Hartwig–Buchwald conditions). The presence of incarcerated triphenylamine was demonstrated by dissolving the zeolite with concentrated HF and analyzing the organic material in the dichloromethane extract. Laser flash photolysis (266 nm) gives rise to the generation of triphenylamminium radical cation detected as a transient species decaying in hundreds of microseconds. Upon repetitive cyclic voltammograms, zeolite encapsulated triphenylamine shows a reversible oxidation–reduction process. In contrast, in solution triphenylamine undergoes irreversible oxidation with the formation of coupling dimers.

yearjournalcountryeditionlanguage
2005-01-01Tetrahedron
https://doi.org/10.1016/j.tet.2004.11.062