75140-48-6Relevant academic research and scientific papers
Direct Cyclopropanation of α-Cyano β-Aryl Alkanes by Light-Mediated Single Electron Transfer Between Donor–Acceptor Pairs
Li, Jing,Lear, Martin J.,Hayashi, Yujiro
supporting information, p. 5901 - 5905 (2021/03/09)
Cyclopropanes are traditionally prepared by the formal [2+1] addition of carbene or radical based C1 units to alkenes. In contrast, the one-pot intermolecular cyclopropanation of alkanes by redox active C1 units has remained unrealised. Herein, we achieve
Reductive alkylation of active methylene compounds with carbonyl derivatives, calcium hydride and a heterogeneous catalyst
Guyon, Carole,Duclos, Marie-Christine,Sutter, Marc,Métay, Estelle,Lemaire, Marc
supporting information, p. 7067 - 7075 (2015/06/25)
A one-pot two-step reaction (Knoevenagel condensation - reduction of the double bond) has been developed using calcium hydride as a reductant in the presence of a supported noble metal catalyst. The reaction between carbonyl compounds and active methylene
Atom- and step-economical preparation of reduced knoevenagel adducts using CO as a deoxygenative agent
Kolesnikov, Pavel N.,Usanov, Dmitry L.,Barablina, Evgeniya A.,Maleev, Victor I.,Chusov, Denis
, p. 5068 - 5071 (2014/12/11)
A highly efficient one-step Rh-catalyzed preparation of reduced Knoevenagel adducts of various aldehydes and ketones with active methylene compounds has been developed. The protocol does not require an external hydrogen source and employs carbon monoxide
Synthetic and mechanistic studies of metal-free transfer hydrogenations applying polarized olefins as hydrogen acceptors and amine borane adducts as hydrogen donors
Yang, Xianghua,Fox, Thomas,Berke, Heinz
, p. 852 - 860 (2012/02/05)
Metal-free transfer hydrogenation of polarized olefins (RR′ CCEE′: R, R′ = H or organyl, E, E′ = CN or CO2Me) using amine borane adducts RR′NH-BH3 (R = R′ = H, AB; R = Me, R′ = H, MAB; R = tBu, R′ = H, tBAB; R = R′ = Me, DMAB) as hydrogen donors, were studied by means of in situ NMR spectroscopy. Deuterium kinetic isotope effects and the traced hydroboration intermediate revealed that the double H transfer process occurred regio-specifically in two steps with hydride before proton transfer characteristics. Studies on substituent effects and Hammett correlation indicated that the rate determining step of the HN transfer is in agreement with a concerted transition state. The very reactive intermediate [NH2BH2] generated from AB was trapped by addition of cyclohexene into the reaction mixture forming Cy2BNH2. The final product borazine (BHNH)3 is assumed to be formed by dehydrocoupling of [NH2BH2] or its solvent stabilized derivative [NH2BH2]-(solvent), rather than by dehydrogenation of cyclotriborazane (BH2NH 2)3 which is the trimerization product of [NH 2BH2].
Design, synthesis and structure-activity relationships of azole acids as novel, potent dual PPAR α/γ agonists
Zhang, Hao,Ryono, Denis E.,Devasthale, Pratik,Wang, Wei,O'Malley, Kevin,Farrelly, Dennis,Gu, Liqun,Harrity, Thomas,Cap, Michael,Chu, Cuixia,Locke, Kenneth,Zhang, Litao,Lippy, Jonathan,Kunselman, Lori,Morgan, Nathan,Flynn, Neil,Moore, Lisa,Hosagrahara, Vinayak,Zhang, Lisa,Kadiyala, Pathanjali,Xu, Carrie,Doweyko, Arthur M.,Bell, Aneka,Chang, Chiehying,Muckelbauer, Jodi,Zahler, Robert,Hariharan, Narayanan,Cheng, Peter T.W.
scheme or table, p. 1451 - 1456 (2009/10/15)
The design, synthesis and structure-activity relationships of a novel series of N-phenyl-substituted pyrrole, 1,2-pyrazole and 1,2,3-triazole acid analogs as PPAR ligands are outlined. The triazole acid analogs 3f and 4f were identified as potent dual PPARα/γ agonists both in binding and functional assays in vitro. The 3-oxybenzyl triazole acetic acid analog 3f showed excellent glucose and triglyceride lowering in diabetic db/db mice.
Superacid-catalyzed intramolecular cyclization reaction of arylcyanopropionate: Geminal substitution effect on superelectrophilicity
Nakamura, Satoshi,Sugimoto, Hiromichi,Ohwada, Tomohiko
, p. 4219 - 4224 (2008/09/20)
(Chemical Equation Presented) We present superacid-catalyzed intramolecular cyclization reactions of arylcyanopropionates to give cyclized five- and six-membered β-enamino esters in moderate to high yields. Known intramolecular ring-closing reactions of protonated nitrile to aromatic carbon atom are limited to the 6-membered case. Interestingly, a significant synergistic increase of reactivity of the cyano functionality was observed, and the cyano nitrogen atom was converted into an amino group, when an ester group was present in a geminal arrangement. Deuterium exchange experiments excluded the involvement of deprotonation of the α-proton in the cyclization process. The acidity dependence of the cyclization reactions and 13C NMR studies of a model compound, methyl cyanoacetate, in various acidic media were consistent with the involvement of the O,N-diprotonated dication of methyl cyanoacetate, a distonic dication, in strong acid, and this is considered to be the de facto electrophile in the present cyclization reaction of arylcyanopropionates.
