22543-72-2Relevant academic research and scientific papers
Bio-inspired asymmetric aldehyde arylations catalyzed by rhodium-cyclodextrin self-inclusion complexes
Asahi, Kaoru,Fujiwara, Shin-Ichi,Iwasaki, Takanori,Kambe, Nobuaki,Takahashi, Ryota,Tsuda, Susumu,Ueda, Ryoji,Yamauchi, Hiroki
supporting information, p. 801 - 807 (2022/02/03)
Transition-metal catalysts are powerful tools for carbon-carbon bond-forming reactions that are difficult to achieve using native enzymes. Enzymes that exhibit inherent selectivities and reactivities through host-guest interactions have inspired widesprea
NMO·TPB: A selectivity variation on the Ley-Griffith TPAP oxidation
Moore, Peter W.,Mirzayans, Paul M.,Williams, Craig M.
supporting information, p. 3567 - 3571 (2015/03/04)
A non-hygroscopic tetraphenylborate salt of N-methylmorpholine-N-oxide (NMO) is reported (NMO·TPB), which modulates the standard Ley-Griffith oxidation such that benzylic and allylic alcohols are oxidised selectively. An attractive feature of this new protocol is that anhydrous conditions are not required for this selective tetra-n-propylammonium perruthenate (TPAP) oxidation, superseding the requirement of molecular sieves.
Solvent control of product diversity in palladium-catalyzed addition of arylboronic acid to aryl aldehydes
Das, Tuluma,Chakraborty, Amarnath,Sarkar, Amitabha
supporting information, p. 5174 - 5178 (2014/12/10)
In Pd-catalyzed arylboronic acid addition to aryl aldehydes, the expected carbinol or asymmetrical ether can be obtained as the major product by altering aqueous solvent composition. Exploiting this methodology with 2-formylbiphenyls as reaction partner, a fluorene scaffold can be readily constructed in two steps.
Nickel-catalyzed 1,2-addition of arylboroxines to aromatic aldehydes
Arao, Takafumi,Kondo, Kazuhiro,Aoyama, Toyohiko
, p. 4115 - 4117 (2008/02/03)
Development of Ni-Et-Duphos-catalyzed 1,2-addition of arylboroxines to aromatic aldehydes is described. The dramatic effect of boron reagent and phosphine ligand is observed. This method with a phosphine ligand allows asymmetric arylation of aromatic aldehydes (up to 78% ee).
