10528-67-3Relevant articles and documents
Effect of solvent on the hydrogenation of 4-phenyl-2-butanone over Pt based catalysts
McManus,Daly,Thompson,Connor,Hardacre,Wilkinson,Sedaie Bonab,Ten Dam,Simmons,Stitt,D'Agostino,McGregor,Gladden,Delgado
, p. 344 - 353 (2015)
The hydrogenation of 4-phenyl-2-butanone over Pt/TiO2 and Pt/SiO2 catalysts has been performed in a range of solvents and it has been observed that the solvent impacted on the selectivity of ketone and aromatic ring hydrogenation as well as the overall TOF of the titania catalyst with no solvent effect on selectivity observed using the silica supported catalyst where ring hydrogenation was favored. For the titania catalyst, alkanes were found to favor ring hydrogenation whereas aromatics and alcohols led to carbonyl hydrogenation. A two-site catalyst model is proposed whereby the aromatic ring hydrogenation occurs over the metal sites while carbonyl hydrogenation is thought to occur predominantly at interfacial sites, with oxygen vacancies in the titania support activating the carbonyl. The effect of the solvent on the hydrogenation reaction over the titania catalyst was related to competition for the active sites between solvent and 4-phenyl-2-butanone.
A simple and highly effective method for hydrogenation of arenes by [Rh(COD)Cl]2
Wang, Da-Wei,Lu, Sheng-Mei,Zhou, Yong-Gui
, p. 1282 - 1285 (2009)
Hydrogenation of arenes, including chiral BINOLs and the lignin model compounds, has been achieved efficiently by using the simple complex [Rh(COD)Cl]2 as catalyst precursor.
Synthesis of chiral functionalised cyclobutylpyrrolidines and cyclobutylamino alcohols from (-)-(S)-verbenone - Applications in the stabilisation of ruthenium nanocatalysts
Aguilera, Jordi,Favier, Isabelle,Sans, Marta,Mor, lex,lvarez-Larena, ngel,Illa, Ona,Gmez, Montserrat,Ortuo, Rosa M.
, p. 810 - 819 (2015)
Stereoselective and efficient synthetic routes to pyrrolidines and amino alcohols anchored to chiral polysubstituted cyclobutane moieties have been developed from (-)-(S)-verbenone. These original frameworks, in particular the diamines and amino alcohols, are appropriate stabilisers of metallic nanoparticles, especially for the synthesis of ruthenium nanomaterials, which found catalytic applications in the hydrogenation of arenes and nitrobenzene derivatives to afford selectively the corresponding cyclohexane or aniline derivatives.
Selective Hydrogenation and Hydrodeoxygenation of Aromatic Ketones to Cyclohexane Derivatives Using a Rh&at;SILP Catalyst
Bordet, Alexis,Emondts, Meike,Leitner, Walter,Moos, Gilles
supporting information, p. 11977 - 11983 (2020/06/02)
Rhodium nanoparticles immobilized on an acid-free triphenylphosphonium-based supported ionic liquid phase (Rh&at;SILP(Ph3-P-NTf2)) enabled the selective hydrogenation and hydrodeoxygenation of aromatic ketones. The flexible molecular approach used to assemble the individual catalyst components (SiO2, ionic liquid, nanoparticles) led to outstanding catalytic properties. In particular, intimate contact between the nanoparticles and the phosphonium ionic liquid is required for the deoxygenation reactivity. The Rh&at;SILP(Ph3-P-NTf2) catalyst was active for the hydrodeoxygenation of benzylic ketones under mild conditions, and the product distribution for non-benzylic ketones was controlled with high selectivity between the hydrogenated (alcohol) and hydrodeoxygenated (alkane) products by adjusting the reaction temperature. The versatile Rh&at;SILP(Ph3-P-NTf2) catalyst opens the way to the production of a wide range of high-value cyclohexane derivatives by the hydrogenation and/or hydrodeoxygenation of Friedel–Crafts acylation products and lignin-derived aromatic ketones.
Enhancing the Catalytic Properties of Ruthenium Nanoparticle-SILP Catalysts by Dilution with Iron
Luska, Kylie L.,Bordet, Alexis,Tricard, Simon,Sinev, Ilya,Grünert, Wolfgang,Chaudret, Bruno,Leitner, Walter
, p. 3719 - 3726 (2016/07/06)
The partial replacement of ruthenium by iron ("dilution") provided enhanced catalytic activities and selectivities for bimetallic iron-ruthenium nanoparticles immobilized on a supported ionic liquid phase (FeRuNPs@SILP). An organometallic synthetic approach to the preparation of FeRuNPs@SILP allowed for a controlled and flexible incorporation of Fe into bimetallic FeRu NPs. The hydrogenation of substituted aromatic substrates using bimetallic FeRuNPs@SILP showed high catalytic activities and selectivities for the reduction of a variety of unsaturated moieties without saturation of the aromatic ring. The formation of a bimetallic phase not only leads to an enhanced differentiation of the hydrogenation selectivity, but even reversed the order of functional group hydrogenation in certain cases. In particular, bimetallic FeRuNPs@SILP (Fe:Ru = 25:75) were found to exhibit accelerated reaction rates for C=O hydrogenation within furan-based substrates which were >4 times faster than monometallic RuNPs@SILP. Thus, the controlled incorporation of the non-noble metal into the bimetallic phase provided novel catalytic properties that could not be obtained using either of the monometallic catalysts.
