77902-89-7Relevant articles and documents
Taming the Reactivity of Phosphiranium Salts: Site-Selective C-Centered Ring Opening for Direct Synthesis of Phosphinoethylamines
Alayrac, Carole,Botella, Clément,Comesse, Sébastien,Dalla, Vincent,Gasnot, Julien,Gaumont, Annie-Claude,Lakhdar, Sami,Taillier, Catherine
, p. 11769 - 11773 (2020)
Advances in the field of phosphorus chemistry are documented, by revealing the synthetic utility of previously underutilized quaternary phosphiranium salts (QPrS) as three-chain-atom electrophilic building blocks. Notably, control of their challenging C-centered electrophilicity is disclosed with an expedient synthesis of tertiary β-anilino phosphines as a proof-of-concept.
Organization of supra molecular assembly of 9-mesityl-10- carboxymethylacridinium ion and fullerene clusters on TiO2 nanoparticles for light energy conversion
Hasobe, Taku,Hattori, Shigeki,Kamat, Prashant V.,Wada, Yuji,Fukuzumi, Shunichi
, p. 372 - 380 (2005)
TiO2 nanoparticles modified with composite nanoclusters of 9-mesityl-10-carboxymethylacridinium ion (Mes-Acr+-COOH) and fullerene (C60) in acetonitrile-toluene (3:1, v/v) were deposited as thin films on nanostructured SnO
Mild copper-catalyzed fluorination of alkyl triflates with potassium fluoride
Dang, Hester,Mailig, Melrose,Lalic, Gojko
supporting information, p. 6473 - 6476 (2014/06/24)
A chemoselective catalytic fluorination of alkyl triflates is described using potassium fluoride as a fluoride source. Excellent yields of the desired alkyl fluorides are obtained after one hour at 45°C using 2 mol% of the copper catalyst. With 10 mol% of the catalyst, full conversion can be achieved in less than 10 minutes at 45°C, and thus makes this procedure potentially suited for the preparation of 18F-labeled PET probes. As a result of the mild reaction conditions, only the substitution products are observed with no evidence of common side reactions, such as elimination. Reported is a preliminary study of the reaction scope, which demonstrates that the fluorination can be performed in the presence of a wide range of functional groups. Evidence suggests an unusual role of the [IPrCuOTf] catalyst as a phase-transfer catalyst and points to [IPrCuF] as the active fluorinating reagent (IPr=1,3-bis(2,6-diisopropylphenyl)imidazol-2-ylidene).