3 article(s) from Bera, Mrinal K
Discovery of the LANCA three-component reaction. The reaction of pivalonitrile (1) with lithiated m...
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Proposed mechanism of the LANCA three-component reaction to β-ketoenamides KE and pyridin-4-ol deri...
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One-pot preparation of pyridin-4-ols PY and their subsequent transformations to highly substituted ...
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Synthesis of β-ketoenamides KE by the LANCA three-component reaction of alkoxyallenes, nitriles and...
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β-Ketoenamides KE36–43 derived from enantiopure components.
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Bis-β-ketoenamides KE44–46 derived from aromatic dicarboxylic acids.
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Conversion of alkyl propargyl ethers E into aryl-substituted β-ketoenamides KEAr and selected produ...
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Condensation of LANCA-derived β-ketoenamides KE with ammonium salts to give 5-alkoxy-substituted py...
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Synthesis of PM31–35 from β-ketoenamides KE37, KE38, KE40, KE41 and KE78 obtained by method A (NH4O...
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Synthesis of bis-pyrimidine derivatives PM36, PM39 and PM40 from β-ketoenamides KE44–46 by method A...
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Functionalization of pyrimidine derivatives PM through selenium dioxide oxidations of PM5, PM9, PM15...
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Conversion of 2-vinyl-substituted pyrimidine PM7 into aldehyde PM50; (NMO = N-methylmorpholine N-ox...
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Deprotection of 5-alkoxy-substituted pyrimidines PM2, PM20 and PM29 and conversion into nonaflates ...
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Palladium-catalyzed coupling reactions of PM54 and PM12 giving rise to new pyrimidine derivatives P...
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Synthesis of pyrimidyl-substituted pyridyl nonaflate PM60.
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Condensation of LANCA-derived β-ketoenamides KE with hydroxylamine hydrochloride leading to pyrimid...
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Reactions of β-ketoenamides KE15 and KE7 with hydroxylamine hydrochloride leading to pyrimidine N-o...
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Structures of pyrimidine N-oxides PO30–33 derived from β-ketoenamides KE43, KE45, KE78 and KE80.
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Reduction of PO4 to PM5 and Boekelheide rearrangements of PO13, PO14, PO4 and PO30 to 4-acetoxymeth...
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Deprotection of 4-acetoxymethyl-substituted pyrimidine derivatives PM61 and PM63, oxidations to for...
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Synthesis of pyrimidinyl-substituted alkyne PM74 and conversion into furopyrimidine PM75 and Sonoga...
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Trifluoroacetic acid-promoted conversion of LANCA-derived β-ketoenamides KE into oxazoles OX and 1,...
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Conversion of β-ketoenamide KE79 into oxazole OX16 and transformation into 5-styryl-substituted oxa...
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Mechanisms of the formation of 1,2-diketones DK and of acetyl-substituted oxazole derivatives OX.
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Hydrogenolyses of benzyloxy-substituted β-ketoenamides KE52 and KE54 to 1,2-diketone DK14 and to di...
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Conversions of 2,4-dicyclopropyl-substituted oxazole OX7 into oxazole derivatives OX18–20 (PPA = po...
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Syntheses of vinyl and ethynyl-substituted oxazole derivatives OX21 and OX23 and their palladium-ca...
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Synthesis of C3-symmetric oxazole derivative OX28 and the STM current image of its 1-phenyloctane s...
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Condensation of 1,2-diketones DK with o-phenylenediamine to quinoxalines QU1–7 (CAN = cerium ammoni...
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The LANCA three-component reaction leading to β-ketoenamides KE and the structure of functionalized...
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Beilstein J. Org. Chem. 2019, 15, 655–678, doi:10.3762/bjoc.15.61
Flögel-three-component reaction of lithiated alkoxyallenes, nitriles and carboxylic acids providing...
Synthesis of bis(β-ketoenamides) 13–15 by three-component reactions of lithiated methoxyallene 8 wi...
Cyclocondensations of β-ketoenamides 13 and 14 to 4-hydroxypyridines 16, 18a and 18b, their subsequ...
Cyclocondensations of β-ketoenamides 13–15 with ammonium acetate to bis(pyrimidine) derivatives 23a...
Conversion of mono-pyrimidine derivative 24b into unsymmetrically substituted biphenylen-bridged py...
Condensation of β-ketoenamides 14 and 20 with hydroxylamine hydrochloride to pyridine-N-oxides 28 a...
Riley oxidation of bis(pyrimidine) derivative 23a and conversion of diol 32a into macrocycle 34.
Optimized geometries of (a) E-configured and (b) Z-configured macrocycle 34 at B3LYP/6-31G(d,p) lev...
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Dihydroxylation of the macrocyclic olefin 34 to diol 35 and subsequent esterification to the bis-(R...
Beilstein J. Org. Chem. 2014, 10, 394–404, doi:10.3762/bjoc.10.37
Preparation of β-ketoenamides and subsequent cyclocondensation to 4-hydroxypyridines. a) Et2O, −40 ...
Mechanistic rational for the formation of β-ketoenamides 16.
Reaction of proline derivative 45 and formation of β-ketoenamide 47 and enolester 48.
1H NMR spectra of 49 and the mixture of diastereoisomers 49 and 49’.
Synthesis of pyrid-4-yl nonaflate 52.
O-Methylation of pyridine derivatives 22 and 30 followed by desilylation.
Formation of 5-alkoxypyrimidines from β-alkoxy-β-ketoenamides.
Beilstein J. Org. Chem. 2011, 7, 962–975, doi:10.3762/bjoc.7.108
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