Tag: M.W=100-200

Product Details of 438630-64-9. The fused heterocycle is formed by combining a benzene ring with a single heterocycle, or two or more single heterocycles. Compound: 1H-Pyrazole-4-sulfonyl chloride, is researched, Molecular C3H3ClN2O2S, CAS is 438630-64-9, about A robust and facile method for desulfonation to amines. Author is Li, Chen; Huang, Yilei; Cao, Sheng; Luo, Yunhao; Zhang, Ying; Yang, Guang.

In this study, a robust and facile method for desulfonation to achieve secondary amines is demonstrated. Diphenylphosphine (Ph2PH) was shown to significantly expedite the cleavage of sulfonamides under basic conditions. Aromatic and aliphatic sulfonamides were cleanly converted, with a rapid reaction time, into the required amines with good to excellent chem. yields. Moreover, the functional groups tested were generally well tolerated.

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The three-dimensional configuration of the ester heterocycle is basically the same as that of the carbocycle. Compound: 1-(2-Methylthiazol-4-yl)ethanone(SMILESS: CC(C1=CSC(C)=N1)=O,cas:23002-78-0) is researched.Category: thiazolidine. The article 《Heterocycles from amino ketones. XIV. Thiazolyl- and pyrrolylquinolines》 in relation to this compound, is published in Zeitschrift fuer Chemie. Let’s take a look at the latest research on this compound (cas:23002-78-0).

2-(R-Substituted)-4-(R1-substituted)-quinolines (I) [where R = 2-methylthiazol-4-yl (II), 2-phenylthiazol-4-yl, 2,4-dimethylthiazol-5-yl, 2-phenyl-4-methylthiazol-5-yl, 2-amino-4-methylthiazol-5-yl, or 2-pyrryl (III); and R1 = Me or Ph] were prepared by the method of K. et al. (1964). I showed pronounced fluorescence and were tested as fluorescence indicators. Reaction of MeCSNH2 with BrCH2COC(NOH)Me gave 2-methyl-4-acetylthiazole-3-oxime, which was saponified to 2-methyl-4-acetylthiazole.

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Most of the compounds have physiologically active properties, and their biological properties are often attributed to the heteroatoms contained in their molecules, and most of these heteroatoms also appear in cyclic structures. A Journal, Journal of the Chemical Society, Perkin Transactions 1: Organic and Bio-Organic Chemistry (1972-1999) called Reduction of 3,5-disubstituted pyridines to dihydropyridines, Author is Booker, Evans; Eisner, Ulli, which mentions a compound: 1195-58-0, SMILESS is N#CC1=CC(C#N)=CN=C1, Molecular C7H3N3, Recommanded Product: Pyridine-3,5-dicarbonitrile.

The pyridines (I, R = Me, Et) underwent reduction with NaBH4 to give mixtures of the corresponding 1,4- II and 1,2-dihydropyridines III, resp. The compositions of the isomer mixtures produced in various solvents were determined Reduction of I by NaBH3CN and by B2H6 gave II and III (R = Me, Et), resp.

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HPLC of Formula: 7661-33-8. So far, in addition to halogen atoms, other non-metallic atoms can become part of the aromatic heterocycle, and the target ring system is still aromatic. Compound: 1-(4-Chlorophenyl)pyrrolidin-2-one, is researched, Molecular C10H10ClNO, CAS is 7661-33-8, about New synthesis of N-aryl- and N-alkylpyrrolidones, and some of their properties.

N-Aryl pyrrolidinones (I) [R = 2,3-Me2C6H3, 2-ClC6H4, 4-ClC6H4, 3,4-Cl2C6H3, 4-BrC6H4, and 2,4-(MeO)BrC6H3] were prepared with 85-98% yield by heating equimolar amounts of γ-butyrolactone (II) and hydrochlorides of primary aromatic amines at 60-210° for 4-20 hr. The reaction of II with hydrochlorides of aliphatic amines proceeds with difficulty and the yield of the corresponding N-alkyl pyrrolidinones is 20-33%. All the pyrrolidinones are active fungicides.

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Category: alcohols-buliding-blocks. Aromatic heterocyclic compounds can also be classified according to the number of heteroatoms contained in the heterocycle: single heteroatom, two heteroatoms, three heteroatoms and four heteroatoms. Compound: 1-(4-Chlorophenyl)pyrrolidin-2-one, is researched, Molecular C10H10ClNO, CAS is 7661-33-8, about Late-stage oxidative C(sp3)-H methylation. Author is Feng, Kaibo; Quevedo, Raundi E.; Kohrt, Jeffrey T.; Oderinde, Martins S.; Reilly, Usa; White, M. Christina.

Frequently referred to as the ‘magic Me effect’, the installation of Me groups-especially adjacent (α) to heteroatoms-has been shown to dramatically increase the potency of biol. active mols.1-3. However, existing methylation methods show limited scope and have not been demonstrated in complex settings1. Here, we report a regioselective and chemoselective oxidative C(sp3)-H methylation method that is compatible with late-stage functionalization of drug scaffolds and natural products. This combines a highly site-selective and chemoselective C-H hydroxylation with a mild, functional-group-tolerant methylation. Using a small-mol. manganese catalyst, Mn(CF3PDP), at low loading (at a substrate/catalyst ratio of 200) affords targeted C-H hydroxylation on heterocyclic cores, while preserving electron-neutral and electron-rich aryls. Fluorine- or Lewis-acid-assisted formation of reactive iminium or oxonium intermediates enables the use of a mildly nucleophilic organoaluminum methylating reagent that preserves other electrophilic functionalities on the substrate. We show this late-stage C(sp3)-H methylation on 41 substrates housing 16 different medicinally important cores that include electron-rich aryls, heterocycles, carbonyls and amines. Eighteen pharmacol. relevant mols. with competing sites, including drugs (for example, tedizolid) and natural products, are methylated site-selectively at the most electron rich, least sterically hindered position. We demonstrate the syntheses of two magic Me substrates, an inverse agonist for the nuclear receptor RORc and an antagonist of the sphingosine-1-phosphate receptor-1, via late-stage methylation from the drug or its advanced precursor. We also show a remote methylation of the B-ring carbocycle of an abiraterone analog. The ability to methylate such complex mols. at late stages will reduce synthetic effort and thereby expedite broader exploration of the magic Me effect in pursuit of new small-mol. therapeutics and chem. probes.

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So far, in addition to halogen atoms, other non-metallic atoms can become part of the aromatic heterocycle, and the target ring system is still aromatic.Belova, N. A.; Suvorov, B. V.; Kagarlitskii, A. D. researched the compound: Pyridine-3,5-dicarbonitrile( cas:1195-58-0 ).Formula: C7H3N3.They published the article 《Oxidative ammonolysis of 3,5-lutidine on vanadium oxide contacts modified by additives of tin and titanium oxides》 about this compound( cas:1195-58-0 ) in Izvestiya Akademii Nauk Kazakhskoi SSR, Seriya Khimicheskaya. Keywords: lutidine ammoxidation metal oxide; vanadium oxide ammoxidation lutidine; tin oxide ammoxidation lutidine; titanium oxide ammoxidation lutidine. We’ll tell you more about this compound (cas:1195-58-0).

Ammoxidation of 3,5-lutidine on the title catalysts at 340-420° gave 5-methylnicotinonitrile (I) and 3,5-pyridinedicarbonitrile (II) in yields as high as 85 and 65%, resp. At the lower temperatures and contact times, II was formed sequentially via I, but under the more drastic conditions II could also be formed directly from 3,5-lutidine.

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Related Products of 1195-58-0. The protonation of heteroatoms in aromatic heterocycles can be divided into two categories: lone pairs of electrons are in the aromatic ring conjugated system; and lone pairs of electrons do not participate. Compound: Pyridine-3,5-dicarbonitrile, is researched, Molecular C7H3N3, CAS is 1195-58-0, about Optimizing Open Iron Sites in Metal-Organic Frameworks for Ethane Oxidation: A First-Principles Study. Author is Liao, Peilin; Getman, Rachel B.; Snurr, Randall Q..

Activation of the C-H bonds in ethane to form ethanol is a highly desirable, yet challenging, reaction. Metal-organic frameworks (MOFs) with open Fe sites are promising candidates for catalyzing this reaction. One advantage of MOFs is their modular construction from inorganic nodes and organic linkers, allowing for flexible design and detailed control of properties. In this work, we studied a series of single-metal atom Fe model systems with ligands that are commonly used as MOF linkers and tried to understand how one can design an optimal Fe catalyst. We found linear relationships between the binding enthalpy of oxygen to the Fe sites and common descriptors for catalytic reactions, such as the Fe 3d energy levels in different reaction intermediates. We further analyzed the three highest-barrier steps in the ethane oxidation cycle (including desorption of the product) with the Fe 3d energy levels. Volcano relationships are revealed with peaks toward higher Fe 3d energy and stronger electron-donating group functionalization of linkers. Furthermore, we found that the Fe 3d energy levels pos. correlate with the electron-donating strength of functional groups on the linkers. Finally, we validated our hypotheses on larger models of MOF-74 iron sites. Compared with MOF-74, functionalizing the MOF-74 linkers with NH2 groups lowers the enthalpic barrier for the most endothermic step in the reaction cycle. Our findings provide insight for catalyst optimization and point out directions for future exptl. efforts.

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Dihydropyridines. XII. Electronic structure and reactivity of monocyanopyridines and symmetric dicyanopyridines》. Authors are Kuthan, J..The article about the compound:Pyridine-3,5-dicarbonitrilecas:1195-58-0,SMILESS:N#CC1=CC(C#N)=CN=C1).SDS of cas: 1195-58-0. Through the article, more information about this compound (cas:1195-58-0) is conveyed.

cf. CA 65, 3828a. The electronic structure of 2-cyanopyridine, 3-cyanopyridine, 4-cyanopyridine, 2,6-dicyanopyridine, and 3,5-dicyanopyridine were studied by means of the simple mol. orbital theory (HMO). The reactivity of these compounds toward nucleophilic reagents is discussed with respect to possible formation of corresponding dihydro derivatives or products with transformed functional groups. Ir, N.M.R., and uv spectra of the compounds studied are compared with the calculated values for the bond orders, π-electron densities, and with the theoretical excitation energies. Bond orders and π-electron densities as calculated on the basis of HMO-approximation are correlated with analogous data obtained by the self-consistent-field method.

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Dihydropyridines. V. Formation of the isomeric 1,2- and 1,4-dihydro derivatives in the reaction of methylmagnesinm iodide with 3,5-dicyanopyridine and 3,5-dicyano-2-methylpyridine》. Authors are Kuthan, J.; Janeckova, E.; Havel, M..The article about the compound:Pyridine-3,5-dicarbonitrilecas:1195-58-0,SMILESS:N#CC1=CC(C#N)=CN=C1).Related Products of 1195-58-0. Through the article, more information about this compound (cas:1195-58-0) is conveyed.

cf. CA 58, 5626a. MeMgI adds to 3,5-dicyanopyridine (I) to give 3,5-dicyano-2-methyl-1,2-dihydropyridine (II) and 3,5-dicyano-4-methyl-1,4-dihydropyridine (III). Similarly, 3,5-dicyano-2-methylpyridine (IV) forms 3,5-dicyano-2,6-dimethyl-1,2-dihydropyridine (V) and 3,5-dicyano-2,4-dimethyl-1,4-dihydropyridine (VI), resp. Nicotinoyl chloride-HCl (from 500 g. nicotinoic acid and 1400 ml. SOCl2) refluxed 35 hrs. with 500 ml. Br, the mixture evaporated on a steam bath, the residue dissolved in 1 l. absolute EtOH, and the solution heated 30 min. on a steam bath gave 81% HBr salt of Et 5-bromonicotinate, m. 147-7.5° (EtOH), from which 80% Et 5-bromonicotinate (VII), b0.5 86-92°, m. 42°, was obtained by treatment with Na2CO3. VII (50 g.) stirred with 30 g. CuCN in 50 ml. HCONMe2 2 hrs. at 160-75°, the mixt evaporated in vacuo, and the residue shaken with 500 ml. concentrated NH4OH and extracted successively with 800 ml. C6H6 and 200 ml. Et2O gave after evaporation 45% Et 5-cyanonicotinate (VIII), b16 143-5°, m. 89-90° (petr. ether). VIII (50 g.) in 1 l. absolute EtOH saturated with NH3 kept 7 days at room temperature gave 72% 5-cyanonicotinamide (IX), m. 220-1° (H2O, EtOH). A mixture of 14 g. IX and 40 ml. anhydrous C5H5N treated over 15 min. with 9 ml. POCl3, stirred 8 hrs., decomposed with ice, alkalized with NH4OH, and extracted with CHCl3 gave 64% I, m. 113-13.5° (dilute EtOH), sublimed 80-90°/10 mm. K salt of 2-hydroxy-3,5-dicyano-6-methylpyridine (6.07 g.) and 7 g. PCl5 treated with 10 ml. POCl3, and the mixture refluxed 30 min., evaporated in vacuo, decomposed with ice, and extracted with C6H6 gave 35% 3,5-dicyano-2-chloro-6-methylpyridine, m. 143-3.5°, which gave IV, m. 76-7°, on catalytic hydrogenation. Reaction of 1.04 g. I in 70 ml. Et2O with MeMgI (from 0.8 g. Mg, 2 ml. MeI, and 30 ml. Et2O) followed by chromatography on Al2O3 (activity II) gave 512 mg. yellow II, m. 114-15° (C6H6, dilute EtOH), and 240 mg. yellowish III, m. 180.5-81° (dilute EtOH). Similarly, 670 mg. IV with MeMgI (from 0.72 g. Mg, 1.9 ml. MeI, and 25 ml. Et2O) afforded 405 mg. yellow V, m. 152-3° (dilute MeOH), and 138 mg. yellowish VI, m. 129.5-30.5°. Dehydrogenation of II, III, V, and VI by heating with equal amounts 30% Pd-C 20 min. at 200-5° gave IV, 3,5-dicyano-4-methylpyridine, m. 84.5-85°, 3,5-dicyano-2,6-dimethylpyridine, m. 118-18.5°, and 3,5-dicyano-2,4-dimethylpyridine, m. 115-15.5°, resp. Ultraviolet and infrared data for II, III, V, and VI, and of some of the intermediates, are given.

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Recommanded Product: 7661-33-8. The protonation of heteroatoms in aromatic heterocycles can be divided into two categories: lone pairs of electrons are in the aromatic ring conjugated system; and lone pairs of electrons do not participate. Compound: 1-(4-Chlorophenyl)pyrrolidin-2-one, is researched, Molecular C10H10ClNO, CAS is 7661-33-8, about Facile CuI-catalyzed arylation of azoles and amides using simple enaminones as efficient ligands. Author is Cheng, Cungui; Sun, Gonglei; Wan, Jieping; Sun, Cuirong.

(E)-3-(Dimethylamino)-1-(2-hydroxyphenyl)prop-2-en-1-one was found to be an excellent ligand for copper-catalyzed N-arylation of azoles and amides with aryl halides under mild conditions. The reaction took place at 82 °C in MeCN with broad functional-group compatibility. A combination of the ligand and CuI proved to be an efficient catalytic system to promote the coupling reactions of aryl halides with azoles and amides.

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