15359-96-3Relevant academic research and scientific papers
S,O-Ligand-Promoted Pd-Catalyzed C?H Olefination of Anisole Derivatives
Fernández-Ibá?ez, M. ángeles,Jia, Wen-Liang,Sukowski, Verena,van Borselen, Manuela,van Diest, Rianne
supporting information, p. 4132 - 4135 (2021/08/24)
The C?H olefination of substituted anisole derivatives by a Pd/S,O-ligand catalyst is reported. The reaction proceeds under mild conditions with a broad range of substituted aryl ethers bearing both electron donating and withdrawing substituents at ortho,
PROCESS FOR PRODUCING PHOSPHONIUM BORATE COMPOUND, NOVEL PHOSPHONIUM BORATE COMPOUND, AND METHOD OF USING THE SAME
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Page/Page column 65, (2008/06/13)
The invention relates to a phosphonium borate compound represented by Formula (I) (hereinafter, the compound (I)). The invention has objects of providing (A) a novel process whereby the compound is produced safely on an industrial scale, by simple reaction operations and in a high yield; (B) a novel compound that is easily handled; and (C) novel use as catalyst. ????????Formula (I) : (R1)(R2)(R3)PH·BAr4?????(I) wherein R1, R2, R3 and Ar are as defined in the specification. The process (A) includes reacting a phosphine with a) HCl or b) H2SO4 to produce a) a hydrochloride or b) a sulfate; and reacting the salt with a tetraarylborate compound. The compound (B) has for example a secondary or tertiary alkyl group as R1 and is easily handled in air without special attention. The use (C) is characterized in that the compound (I) is used instead of an unstable phosphine compound of a transition metal complex catalyst for catalyzing C-C bond, C-N bond and C-O bond forming reactions and the compound produces an effect that is equal to that achieved by the transition metal complex catalyst.
Catalyst for aromatic C—O, C—N, and C—C bond formation
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, (2008/06/13)
The present invention is directed to a transition metal catalyst, comprising a Group 8 metal and a ligand having the structure wherein R, R′ and R″ are organic groups having 1-15 carbon atoms, n=1-5, and m=0-4. The present invention is also directed to a method of forming a compound having an aromatic or vinylic carbon-oxygen, carbon-nitrogen, or carbon-carbon bond using the above catalyst. The catalyst and the method of using the catalyst are advantageous in preparation of compounds under mild conditions of approximately room temperature and pressure.
Air stable, sterically hindered ferrocenyl dialkylphosphines for palladium-catalyzed C-C, C-N, and C-O bond-forming cross-couplings
Kataoka, Noriyasu,Shelby, Quinetta,Stambuli, James P.,Hartwig, John F.
, p. 5553 - 5566 (2007/10/03)
Pentaphenylferrocenyl di-tert-butylphosphine has been prepared in high yield from a two-step synthetic procedure, and the scope of various cross-coupling processes catalyzed by complexes bearing this ligand has been investigated. This ligand creates a remarkably general palladium catalyst for aryl halide amination and for Suzuki coupling. Turnovers of roughly 1000 were observed for aminations with unactivated aryl bromides or chlorides. In addition, complexes of this ligand catalyzed the formation of selected aryl ethers under mild conditions. The reactions encompassed electron-rich and electron-poor aryl bromides and chlorides. In the presence of catalysts containing this ligand, these aryl halides coupled with acyclic or cyclic secondary alkyl- and arylamines, with primary alkyl- and arylamines, and with aryl- and primary alkylboronic acids. These last couplings provide the first general procedure for reaction of terminal alkylboronic acids with aryl halides without toxic or expensive bases. The ligand not only generates highly active palladium catalysts, but it is air stable in solution and in the solid state. Palladium(0) complexes of this ligand are also air stable as a solid and react only slowly with oxygen in solution.
Arylation with 1,3-Dinitroarenes and Copper(I) t-Butoxide. Scope and Limitations
Carter, Stephen D.,Wallace, Timothy W.
, p. 1601 - 1633 (2007/10/02)
The reaction of 1,3-dinitrobenzene with copper(I) t-butoxide and an iodoarene, which produces a 2,6-dinitrobiphenyl, has been stidied in detail with a variety of substrates.Iodoarenes containing ester, aldehyde, or other halogen functions were effective, but replacement of the iodoarene with a bromoarene, iodoalkyne, or iodoalkene resulted in less efficient coupling, promoting side-reactions.On replacing the second nitro group on the dinitrobenezene with nitrile, ester, amide, or trifluoromethyl groups, little or no coupling was observed.Limiting side-reactions usually involved the decomposition of substrates by t-butoxide via nucleophilic substitution, elimination, or deprotonation.A mechanism based on reversible cupration of the dinitroarene is proposed.
