Category: Thiomorpholine

Formula: C5H11I. 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-Iodo-2-methylbutane, is researched, Molecular C5H11I, CAS is 616-14-8, about Preparation of (S)-2-methylbutyl and (S)-sec-butyl ketones from optically active 2-methyl-1-butanol by the dithiane method. Author is Seebach, D.; Steinmueller, D..

Optically active aldehydes and ketones EtMeCHCRO (where R = H, Me, Ph, Me3Si, C5H11, or 1-cyclohexenyl) were prepared by treating EtMeCHCHO, obtained from EtMeCHCH2OH, with CH2(CH2SH)2 to give 2-(1-methylpropyl)-1,3-dithiane, which was then alkylated and hydrolyzed. The loss of optical activity was <20% for the reaction sequence. If you want to learn more about this compound(1-Iodo-2-methylbutane)Formula: C5H11I, you may wish to communicate with the author of the article,or consult the relevant literature related to this compound(616-14-8).

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Optical rotations of configurationally related azides》. Authors are Levene, P. A.; Rothen, Alexandre; Kuna, Martin.The article about the compound:1-Iodo-2-methylbutanecas:616-14-8,SMILESS:CCC(CI)C).Safety of 1-Iodo-2-methylbutane. Through the article, more information about this compound (cas:616-14-8) is conveyed.

Substances of the type MeCH[(CH2)n1X][(CH2)n2R], where n1 or n2 = 0 or an integer, X = a functional group and R = a normal alkyl, Ph or C6Hn group, can be classified into 2 categories, viz., those, typified by X = CHO, in which the configuration of the 1st members having n1 = 0 can be correlated by classical methods to those having n1 > 0, and those, typified by X = halogen, in which such correlation cannot be accomplished by classical methods. For the purpose of solving the latter problem the azides were chosen over the halides, inasmuch as they can be converted into the corresponding amines. The amines, while belonging to the 2nd category, can be correlated among themselves by a sufficiently reliable though nonclassical argument which will be reported later. The secondary azides were prepared by the action of NaN3 on the iodides and the amines by reduction of the azides with PtO2. The rotatory phenomena observed in the series of azides and halides were compared with those in the series of aldehydes and were found to be dissimilar in both series. Hence a comparison of these phenomena cannot be used for the correlation of the members of the series of halides and azides having n1 = 0 with those having n1 > 0. The following compounds were prepared: l-2-iodobutane, b. 111-18°, [M]D25 -24.1°, from the alc. and anhydrous HI in a bomb tube at room temperature for 2 days; d-2-azidobutane, b500 85°, d425 0.8619, nD25 1.4122, [M]D25 15.9°; d-2-aminobutane, [M]D25, 0.66° (in H2O), (HCl salt, [M]5875.625 -0.44° (in H2O)); l-2-iodoöctane, b1 52°, nD25 1.4863, d425 1.3158, [M]D25 -80.0°; d-2-azidoöctane, b9 68°, nD25 1.4332, d425 0.8555, [M]D25 43.4°, 42.5° (in heptane (I)); d-2-aminoöctane, b9 48°, nD25 1.4220, [M]D25 5.41°, (HCl salt, [M]D25 -6.44° (in H2O)); d-1-iodo-2-methylbutane, b. 145-6°, nD25 1.4950, [M]D25 8.28°, maximum [M]D25 11.1°; d-1-azido-2-methylbutane, b138 72°, nD25 1.4240, d425 0.8770, [M]D25 8.61°, maximum [M]D25 11.6°; l-1-amino-2-methylbutane, b12 40-5°, [M]5875.625 -0.21° (in H2O); l-1-azido-2-methylhexane, b15 59-60°, [α]D25 -0.30°; d-1-iodo-2-methylnonane, b4 86°, d425 1.254, [M]D25 2.54°; l-1-azido-2-methylnonane, b10 98-102°, d425 0.8658, nD25 1.4430, [M]D25 -0.74°; l-1-iodo-3-methylpentane, b12 54°, d425 1.3934, nD25 1.4866, [M]D25 -16.1°, maximum [M]D25 -43.9°; l-1-azido-3-methylpentane, b. 145-8°, nD25 1.4300, [M]D25 -9.63°, maximum [M]5875.625 -26.3° (in I); d-1-iodo-4-methylhexane, b13 74-5°, b103 124-6°, nD25 1.4852, d425 1.3579, [M]D25 8.20°, maximum [M]D25 26.2°; d-1-azido-4-methylhexane, b418 157°, d425 0.8636, nD25 1.4323, [M]5875.625 5.41°, maximum [M]5875.625 17.3° (in I.). All values for [M] are for the homogenous substance unless otherwise stated.

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In general, if the atoms that make up the ring contain heteroatoms, such rings become heterocycles, and organic compounds containing heterocycles are called heterocyclic compounds. An article called Imidazole series. XX. Aminonitroimidazoles and diaminoimidazoles, published in 1965, which mentions a compound: 4531-54-8, Name is 1-Methyl-4-nitro-1H-imidazol-5-amine, Molecular C4H6N4O2, Application of 4531-54-8.

cf. preceding abstract The aminonitroimidazoles I-XII were prepared by heating the corresponding nitrochloroimidazoles with a 8-15% alc. NH3 solution at 120-50° for 5-10 hrs. The products I, VII, and XII were obtained in the presence of CuSO4 catalyst (formula, R, m.p., and % yield 131-1.5°, 15-20; VII, iso-Bu, 108-10°, 15; VIII, H, 222.5-23°, 30.5; IX, Me, 198-9°, 39.5; X, Et, 160-1°, 58; XI, Pr, 130-1°, 32; XII, iso-Bu, 129-30°, 21.5. The hydrogenation of II in Ac2O in the presence of Raney Ni gave 1-ethyl-2-methyl-4,5-diaminoimidazole diacetate at 30-45° and initial H pressure of 10 atm. and tetraacetate at 50-80° and 100 atm.

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Computed Properties of C4H6N4O2. 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-Methyl-4-nitro-1H-imidazol-5-amine, is researched, Molecular C4H6N4O2, CAS is 4531-54-8, about Development and validation of stability – indicating RP-HPLC chromatographic method by forced degradation studies for azathioprine by related substances. Author is Hiralben, S. Mehta; Shinghvi, Indrajeet; Raj, Hasumati A..

Simple, rapid and reproducible stability-indicating methods were established for quant. determination of azathioprine using a, phenomenex 250 mm × 4.9 mm C18, 5 μm, inertsil and UV detection at 240 nm. The isocratic elution was used to quantify the analyte and the mobile phase was acetate buffer: acetonitrile: methanol (30: 35: 35) was pumped at 1.0 mL/min. The method was linear between 10-300 μg/mL, statistically validated for its linearity, precision and accuracy. In this study, degradation behavior of azathioprine was studied by subjecting the drug to various ICH stress conditions. The intra and inter day variation was found to be less than 1% showing high precision of the assay method. It was found that the excipients in the com. tablet did not interfere with the method. Developed method can routinely use for the estimation of azathioprine related compounds from the dosage form and also for stability sample.

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Formation of 4(5)-aminoglyoxalines. I》. Authors are Balaban, Isidore E..The article about the compound:1-Methyl-4-nitro-1H-imidazol-5-aminecas:4531-54-8,SMILESS:NC1=C([N+]([O-])=O)N=CN1C).Reference of 1-Methyl-4-nitro-1H-imidazol-5-amine. Through the article, more information about this compound (cas:4531-54-8) is conveyed.

The only evidence at present that 4(5)-aminoglyoxalines are true aromatic amines is the formation, after diazotization, of colored soln with aqueous β-C10H7ONa. Reduction of 4(5)-nitro-2-methyl- and 4(5)-nitroglyoxalines with Fe and H2O, FeSO4 and NaOH, Na2S or activated Al gave no basic material. Et glyoxaline-4(5)-carboxylate and N2H4.H2O, heated on the H2O bath for 30 min., give nearly quant. glyoxaline-4(5)-carboxyhydrazide, crystallizing with 1H2O, m. 213°, reduces NH4OH-AgNO3 slowly but not Fehling solution; picrate, yellow, m. 223° (decomposition), crystallizes from 85 parts boiling H2O. With HNO3 there results glyoxaline-4(5)-carboxyazide (I), decomposes explosively at 137°; heating with H2O does not give the urea; the green solution gives an amorphous picrate, chars 230°. Boiling I with absolute EtOH for 4 hrs. gives 42.2% of 4(5)-carbethoxyaminoglyoxaline, m. 180°; picrate, golden, decomposes 210°, crystallizes from 60 parts boiling H2O; nitrate (II), decomposes 143°. I and MeOH give 50% of the corresponding carbomethoxy derivative, m. 175°; picrate, decomposes 243°. Neither derivative could be hydrolyzed by acid or alkali. II and concentrated H2SO4 give 58% of 5(4)-nitro-4(5)-carbethoxyaminoglyoxaline, m. 234° (decomposition); this could not be converted by 10% Na2CO3 into the corresponding amine. 5-Chloro-4-nitro-1-methylglyoxaline and EtOH-NH3, heated 4 hrs. at 140°, give 63.7% of the 5-NH2 derivative, yellow, m. 303° (decomposition), crystallizes from 170 parts boiling H2O; it does not form an Ac derivative, a benzylidene derivative or a picrate; after treatment with HNO2, alk. C10H7ONa gives a greenish blue color and alk. m-C6H4(OH)2 a violet color. With 16% HCl, HNO2 is liberated and α-methylamino-α-hydroxyacetamide, pale brown, m. 140°, is formed.

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In general, if the atoms that make up the ring contain heteroatoms, such rings become heterocycles, and organic compounds containing heterocycles are called heterocyclic compounds. An article called Analysis of rotatory dispersions of configurationally related halides, published in 1936, which mentions a compound: 616-14-8, Name is 1-Iodo-2-methylbutane, Molecular C5H11I, Synthetic Route of C5H11I.

Rotatory dispersion curves of halides of the type HMeRC(CH2)nX (X = Cl, Br, I; R = alkyl group; n = 0, 1, 2 or 3) are analyzed in the visible and the ultraviolet regions. The 3 halogen atoms function similarly with respect to the character of this curve in compounds of identical structure. A periodicity in the sign of some of the partial contributions of the halogen atom occurs with increase in n. The course of the rotatory dispersion when n = 1 is anomalous. An attempt is made to apply results when n > 0 to the sign of rotation for compounds where n = 0. When X = COOH, CHO, CN, CHMe2, etc., no complete analogy exists between this group and the group where X is a halogen. [M]D25 maximum (homogeneous) is given for the 16 compounds where X = Br, n = 1, 2, 3, 4, and R = Et, Pr, Bu, pentyl, and for the compound HMeEtC(CH2)5Br. Absorption spectra are given for λ 2100-3300 for 5 iodides. Rotatory dispersion curves are given for the compounds HMeEtCCH2I, HMe(C6H13)CCH2I, HMeEtCCH2Br and HMeEtCCH2Cl. [M]D25 maximum, nD25, d425 (vacuum) and rotatory dispersions (numerical) are given for several other compounds in this series. Differences between the interpretation of the dispersions of the iodides given by the authors (C. A. 27, 951) and that given by Kuhn (C. A. 29, 7159.1) are due to substantial differences between their exptl. data.

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COA of Formula: C5H11I. The mechanism of aromatic electrophilic substitution of aromatic heterocycles is consistent with that of benzene. Compound: 1-Iodo-2-methylbutane, is researched, Molecular C5H11I, CAS is 616-14-8, about Gas chromatography of isomeric pentyl halides. Author is Chaudri, B. A.; Hudson, Harry R.; Murphy, William Stephen.

Isomeric pentyl halides were separated by gas chromatog. Two columns were used: a 4 m. × 1/16-in. outer diameter stainless steel column packed with 10% squalane on 80-100-mesh Chromosorb W, N as the carrier at 13-15 ml./min. (column 1), and a 4-m. × 1/8-in. outer diameter stainless steel column packed with 11.5% Bentone 34 + 11.5% silicone MS 555 on 80-100-mesh Chromosorb W, N as the carrier at 25-30 ml./min. (column 2). On column 1, chlorides were analyzed at 20°, bromides and iodides at 40°; on column 2, all analyses were at 40°. A flame ionization detector was used with both columns. tert-Pentyl bromide and iodide decomposed in column 2 although not on column 1. The 3-halogenopentanes were the only isomers that could not be completely separated from all other pentyl structures.

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The reaction of an aromatic heterocycle with a proton is called a protonation. One of articles about this theory is 《Optical rotation and atomic dimension》. Authors are Brauns, D. H..The article about the compound:1-Iodo-2-methylbutanecas:616-14-8,SMILESS:CCC(CI)C).Application In Synthesis of 1-Iodo-2-methylbutane. Through the article, more information about this compound (cas:616-14-8) is conveyed.

The 1-F, 1-Cl, 1-Br and 1-I derivatives of 2-methylbutane have [M]D20 -799.1°, 179.1°, 610.1° and 1124.7°, resp. If the F derivative is classified with the other halogen derivatives, the values for the ratio Cl-F, Br-Cl and I-Br are 41:18.1:21.6 which agree well with the ratios of the resp. at. diameters.

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The preparation of ester heterocycles mostly uses heteroatoms as nucleophilic sites, which are achieved by intramolecular substitution or addition reactions. Compound: 1-Iodo-2-methylbutane( cas:616-14-8 ) is researched.Application of 616-14-8.Blumel, Marcus; Crocker, Reece D.; Harper, Jason B.; Enders, Dieter; Nguyen, Thanh V. published the article 《N-Heterocyclic olefins as efficient phase-transfer catalysts for base-promoted alkylation reactions》 about this compound( cas:616-14-8 ) in Chemical Communications (Cambridge, United Kingdom). Keywords: dicarbonyl compound alkyl halide alkylation reaction heterocyclic olefin catalyst; heterocyclic olefin preparation. Let’s learn more about this compound (cas:616-14-8).

N-Heterocyclic olefins (NHOs), e.g., I have very recently emerged as efficient promoters for several chem. reactions due to their strong Bronsted/Lewis basicities. The novel application of NHOs as efficient phase-transfer organocatalysts for synthetically important alkylation reactions on a wide range of substrates, further demonstrates the great potential of NHOs in organic chem has been reported.

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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.Hu, Jiefeng; Yang, Xianyu; Shi, Shasha; Cheng, Bo; Luo, Xiaoling; Lan, Yu; Loh, Teck-Peng researched the compound: 1-Iodo-2-methylbutane( cas:616-14-8 ).Reference of 1-Iodo-2-methylbutane.They published the article 《Metal-free C(sp3)-H functionalization of sulfonamides via strain-release rearrangement》 about this compound( cas:616-14-8 ) in Chemical Science. Keywords: unsaturated imine preparation diastereoselective chemoselective DFT; fluorotosylamide tosylbenzaldimine carbon hydrogen functionalization strain release rearrangement. We’ll tell you more about this compound (cas:616-14-8).

A metal-free reaction system that enables C-H bond functionalization of aliphatic sulfonamides R(CH2)2N(F)Ts (R = decyl, cyclohexyl, oxan-4-yl, benzyl, etc.) using DABCO as a promoter under mild conditions, affording a series of α,β-unsaturated imines R1CH=C(R)CH=NTs (R1 = Ph, 4-chlorophenyl, 2,3-dihydro-1-benzofuran-5-yl, etc.) in good yields with high selectivities was presented. This protocol tolerates a broad range of functionalities and can serve as a powerful synthetic tool for the late-stage modification of complex compounds More importantly, control experiments and detailed DFT calculations suggest that this process involves [2 + 2] cyclization/ring-cleavage reorganization, which opens up a new platform for the establishment of other related reorganization reactions.

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