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Search for "SNAr" in Full Text gives 60 result(s) in Beilstein Journal of Organic Chemistry.
Palladium-catalyzed C–N and C–O bond formation of N-substituted 4-bromo-7-azaindoles with amides, amines, amino acid esters and phenols
Beilstein J. Org. Chem. 2012, 8, 2004–2018, doi:10.3762/bjoc.8.227
- 7-azaindole scaffolds appear in various pharmaceutically important molecules (Figure 1), which are very challenging and lengthy to prepare by the traditional methods [40][41]. In general, nucleophilic aromatic substitution (SNAr) reaction of a halo-precursor of 7-azaindole with a large excess of
- achieved from the corresponding halide by SNAr displacement reactions, which typically require very high temperatures, extended reaction times, and a large excess of the amine counterpart [5]. Other alternative methods employ the amino-substituted azaindole as the key intermediate, which are challenging to
Organocatalytic asymmetric Michael addition of unprotected 3-substituted oxindoles to 1,4-naphthoquinone
Beilstein J. Org. Chem. 2012, 8, 1360–1365, doi:10.3762/bjoc.8.157
- . Only Sammakia tried the SNAr reaction of unprotected 3-phenyloxindole with chiral electron-deficient 5-halooxazoles, promoted by 1.0 equiv of Cs2CO3 [21], with ca. 1:1 diastereoselectivity obtained. In this context, we are interested in the catalytic economical asymmetric diverse synthesis of 3,3
Exploring chemical diversity via a modular reaction pairing strategy
Beilstein J. Org. Chem. 2012, 8, 1293–1302, doi:10.3762/bjoc.8.147
- nucleophilic aromatic substitution (SNAr) diversification pathway is reported. Eight benzofused sultam cores were generated by means of a sulfonylation/SNAr/Mitsunobu reaction pairing protocol, and subsequently diversified by intermolecular SNAr with ten chiral, non-racemic amine/amino alcohol building blocks
- . Computational analyses were employed to explore and evaluate the chemical diversity of the library. Keywords: benzoxathiazocine 1,1-dioxides; chemical diversity; informatics; nucleophilic aromatic substitution (SNAr); sultams; Introduction The demand for functionally diverse chemical libraries has emerged, as
- , namely sulfonylation, Mitsunobu alkylation and SNAr, which when combined in different sequences or with different coupling reagents, give access to skeletally diverse sultams, including the title compounds and the 8-membered bridged, benzofused sultams [32]. Building on this strategy, we herein report
Highly selective synthesis of (E)-alkenyl-(pentafluorosulfanyl)benzenes through Horner–Wadsworth–Emmons reaction
Beilstein J. Org. Chem. 2012, 8, 1185–1190, doi:10.3762/bjoc.8.131
- the only known SEAr of 1 or 2 is the nitration of 2 under harsh conditions and in low yield [14], we have recently described SNAr of the nitro group in compounds 1 and 2 with alkoxides and thiolates [15], vicarious nucleophilic substitution (VNS) of the hydrogen with carbon [16], oxygen [17] and
Synthesis and structure of tricarbonyl(η6-arene)chromium complexes of phenyl and benzyl D-glycopyranosides
Beilstein J. Org. Chem. 2012, 8, 1059–1070, doi:10.3762/bjoc.8.118
- the aromatic ring and, thus, making the arene more susceptible towards SNAr reactions. Likewise, the benzylic and homo-benzylic positions in tricarbonyl(η6-arene)chromium complexes are more acidic and more prone to solvolysis, nucleophilic substitution and deprotonation than in the parent arenes due
Derivatives of phenyl tribromomethyl sulfone as novel compounds with potential pesticidal activity
Beilstein J. Org. Chem. 2012, 8, 259–265, doi:10.3762/bjoc.8.27
- tribromomethyl phenyl sulfone derivatives as novel potential pesticides is reported. The title sulfone was obtained by following three different synthetic routes, starting from 4-chlorothiophenol or 4-halogenphenyl methyl sulfone. Products of its subsequent nitration were subjected to the SNAr reactions with
- . Keywords: 2-nitroaniline derivatives; phenylhydrazones; pesticides; SNAr reaction; tribromomethyl sulfone derivatives; Introduction The rapid growth of the world population results in a continous increase in the demand for food. At the same time, about 35% of the global crops around the world are being
- (compared to 94% for chlorine analogue 1), while the subsequent nitration of 6' resulted in 94% yield (compared to 96% for analogue 6). With these results at hand, we ultimately picked chlorine-containing nitrosulfone 6 as the substrate for the subsequent synthetic steps. A range of SNAr reactions of 6 with
Translation of microwave methodology to continuous flow for the efficient synthesis of diaryl ethers via a base-mediated SNAr reaction
Beilstein J. Org. Chem. 2011, 7, 1360–1371, doi:10.3762/bjoc.7.160
- employed. To demonstrate the advantages associated with microreaction technology a series of SNAr reactions were performed under continuous flow by following previously developed microwave protocols as a starting point for the investigation. By this approach, an automated microreaction platform (Labtrix
- -temperature flow reactors, which can be scaled to increase production volume without changing the reaction conditions employed [23][24][25], resulting in a reduction in energy usage per mole. With this in mind, we report herein the translation, and further development, of a microwave method for the SNAr
- illustrating Labtrix® S1, the automated microreactor development apparatus from Chemtrix BV (NL), used for the evaluation described herein. Schematic illustrating the 10 µL reactor manifold used for the SNAr reactions described herein (3223; Chemtrix BV, NL), with the important features highlighted. Schematic
Directed aromatic functionalization
Beilstein J. Org. Chem. 2011, 7, 1215–1218, doi:10.3762/bjoc.7.141
- extent, nucleophilic aromatic substitution (SNAr) [2][6][7] reactions as taught to many generations of students in their first organic chemistry courses [8] (Figure 1). Being less steeped in history, radical nucleophilic substitution (SRN1) [9] and vicarious nucleophilic substitution (VNS) [10][11][12
- heteroaromatics [15][16][17]. While comparison with SEAr and SNAr should never be denied, the DoM approach offers incontestable ortho regioselectivity, mild conditions, and perhaps most significantly, broad post-DoM synthetic potential. As a result, it has been called upon, with increasing favor and frequency, by
An overview of the key routes to the best selling 5-membered ring heterocyclic pharmaceuticals
Beilstein J. Org. Chem. 2011, 7, 442–495, doi:10.3762/bjoc.7.57
- group unmasks the aniline which undergoes nucleophilic aromatic substitution to introduce the pyrimidine system with the formation of 253. Methylation of the secondary amine function with methyl iodide prior to a second SNAr reaction with a sulfonamide-derived aniline affords pazopanib (Scheme 50) [76
- a nearby phenylalanine residue, whilst the trifluoromethyl group interacts with serine and arginine residues in a lipophilic pocket (Figure 8) [83]. In the discovery chemistry route [84] the heterocycle core was prepared from a SNAr reaction between chloropyrazine (276) and excess hydrazine
Perhalogenated pyrimidine scaffolds. Reactions of 5-chloro- 2,4,6-trifluoropyrimidine with nitrogen centred nucleophiles
Beilstein J. Org. Chem. 2008, 4, No. 22, doi:10.3762/bjoc.4.22
- desirable process but one of the most difficult to achieve in practice. Pyrimidines are electron-deficient aromatic systems and, when halogenated, become very useful substrates for a variety of nucleophilic aromatic substitution (SNAr) processes [9] and, since numerous chloropyrimidines are commercially
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