Tag: M.W:200-300

The preparation of ester heterocycles mostly uses heteroatoms as nucleophilic sites, which are achieved by intramolecular substitution or addition reactions. Compound: Bromoferrocene( cas:1273-73-0 ) is researched.Computed Properties of C10BrFe.Lee, Mei Tsu; Foxman, Bruce M.; Rosenblum, Myron published the article 《Cofacial metallocenes. Synthesis and crystal structure of 1,8-diferrocenylnaphthalene》 about this compound( cas:1273-73-0 ) in Organometallics. Keywords: crystal structure ferrocenylnaphthalene syn preparation; mol structure ferrocenylnaphthalene syn preparation; cyclic voltammetry ferroenylnaphthalene syn preparation; ferrocenylnaphthalene crystal structure oxidation preparation; diferrocenylnaphthylene crystal structure oxidation preparation; naphthalene diferrocenyl crystal structure oxidation. Let’s learn more about this compound (cas:1273-73-0).

The optimal synthesis of 1,8-differocenylnaphthalene (I) was the coupling of 1,8-diiodonaphthalene and ferrocenylzinc chloride in the presence of ferrocenylphosphine-containing catalyst PdLCl2, giving 58% of I with 94% selectivity. The x-ray crystal structure of I showed that the naphthalene ring and bonds from the peri-C atoms to the cyclopentadienyl rings were highly distorted. The 2 substituted cyclopentadienyl rings were rotated by ∼46° from the perpendicular to the naphthalene ring. Cyclic voltammetry of I showed 2 reversible, one-electron waves. The monocation I+BF4- derived by oxidation of I with AgBF4, had an intervalence transfer band at 1600 nm (εmax 200), not shown by the corresponding dication of I. I+ was best represented as a weakly interacting mixed-valence system.

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In organic chemistry, atoms other than carbon and hydrogen are generally referred to as heteroatoms. The most common heteroatoms are nitrogen, oxygen and sulfur. Now I present to you an article called Measurements of structural and quadrupole coupling parameters for bromoferrocene using microwave spectroscopy, published in 1997-11-01, which mentions a compound: 1273-73-0, mainly applied to ferrocene bromo microwave spectroscopy; quadrupole coupling bromoferrocene; rotational spectra bromoferrocene; mol structure bromoferrocene, SDS of cas: 1273-73-0.

Rotational spectra for two isotopomers of bromoferrocene were measured using pulsed-beam Fourier transform microwave spectroscopy. Transitions were observed for the 79Br and 81Br isotopomers in the 5-9 GHz range. Rotational constants and the quadrupole coupling tensors were obtained. The rotational constants and quadrupole coupling parameters for 79Br are A = 1272.110(1), B = 516.1125(2), C = 441.3775(2), eQqaa=267.16(3), eQqab=-409.81(4), and eQqbb=21.49(4), and those for 81Br are A = 1271.045(4), B = 510.0079(2), C = 436.7687(2), eQqaa=225.40(6), eQqab=-341.62(4), and eQqbb=15.65(4). The measured rotational constants were used to determine the following structural parameters of bromoferrocene: r(Fe-(C5H5))=1.63(2), r(Fe-(C5H4Br))=1.67(3), r(C-Br)=1.875(11), and r(C-C)=1.433(1) A. The values of the quadrupole coupling parameters in the principal quadrupole axis systems and the C-Br bond axis systems are compared with similarly derived parameters for chloroferrocene, chlorobenzene, and bromobenzene. Previous data for chloroferrocene was reanalyzed to obtain refined quadrupole parameters.

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Electric Literature of C10BrFe. 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: Bromoferrocene, is researched, Molecular C10BrFe, CAS is 1273-73-0, about Dipole moments and internal rotation in 1,1′-dihaloferrocenes.

The dipole moments of bromoferrocene, iodoferrocene, 1,1′-dibromoferrocene, and 1-1′-diiodoferrocene have been measured in C6H6. They indicate that the potential barrier between the cis and trans forms, which is very small for 1,1′-dichloroferrocene, increases for 1,1′-dibromo- and 1,1′-diiodoferrocene. The potential energy function shows min. at 36°, 108° and 180°. The differences ΔE1 = E36° – E180° for the series have been calculated on the assumption that the min. at 180° and 108° are equal. The values obtained are consistent with increasing steric hindrance in the series Cl, Br, I.

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Most of the natural products isolated at present are heterocyclic compounds, so heterocyclic compounds occupy an important position in the research of organic chemistry. A compound: 1273-73-0, is researched, SMILESS is Br[C-]12[Fe+2]3456789([C-]%10C6=C7C8=C9%10)C1=C3C4=C25, Molecular C10BrFeJournal, Article, Organometallics called Halide-Mediated Ortho-Deprotonation Reactions Applied to the Synthesis of 1,2- and 1,3-Disubstituted Ferrocene Derivatives, Author is Zirakzadeh, Afrooz; Herlein, Alexander; Gross, Manuela A.; Mereiter, Kurt; Wang, Yaping; Weissensteiner, Walter, the main research direction is halide deprotonation disubstituted ferrocene derivative; crystal mol structure bromodiiodoferrocene.Computed Properties of C10BrFe.

The ortho-deprotonation of halide-substituted ferrocenes by treatment with lithium tetramethylpiperidide (LiTMP) has been investigated. Iodo-, bromo-, and chloro-substituted ferrocenes were easily deprotonated adjacent to the halide substituents. The synthetic applicability of this reaction was, however, limited by the fact that, depending on the temperature and the degree of halide substitution, scrambling of both iodo and bromo substituents at the ferrocene core took place. Iodoferrocenes could not be transformed selectively into ortho-substituted iodoferrocenes since, in the presence of LiTMP, the iodo substituents scrambled efficiently even at -78°, and this process had occurred before electrophiles had been added. Bromoferrocene and certain monobromo-substituted derivatives, however, could be efficiently ortho-deprotonated at low temperature and reacted with a number of electrophiles to afford 1,2- and 1,2,3-substituted ferrocene derivatives For example, 2-bromo-1-iodoferrocene was synthesized by ortho-deprotonation of bromoferrocene and reaction with the electrophiles diiodoethane and diiodotetrafluoroethane, resp. In this and related cases the iodide scrambling process and further product deprotonation due to the excess LiTMP could be suppressed efficiently by running the reaction at low temperature and in inverse mode. In contrast to the low-temperature process, at room temperature bromo substituents in bromoferrocenes scrambled in the presence of LiTMP. Chloro- and 1,2-dichloroferrocene could be ortho-deprotonated selectively, but in neither case was scrambling of a chloro substituent observed As a further application of this ortho-deprotonation reaction, a route for the synthesis of 1,3-disubstituted ferrocenes was developed. 1,3-Diiodoferrocene was accessible from bromoferrocene in four steps. On a multigram scale an overall yield of 41% was achieved. 1,3-Diiodoferrocene was further transformed into sym. 1,3-disubstituted ferrocenes (1,3-R2Fc; R = CHO, COOEt, CN, CH:CH2).

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Computed Properties of C13H15F3N2O. 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: (R)-4-(tert-Butyl)-2-(5-(trifluoromethyl)pyridin-2-yl)-4,5-dihydrooxazole, is researched, Molecular C13H15F3N2O, CAS is 1428537-19-2, about Enantioselective construction of remote quaternary stereocentres.

Small mols. that contain all-carbon quaternary stereocenters-carbon atoms bonded to four distinct carbon substituents-are found in many secondary metabolites and some pharmaceutical agents. The construction of such compounds in an enantioselective fashion remains a long-standing challenge to synthetic organic chemists. In particular, methods for synthesizing quaternary stereocenters that are remote from other functional groups are underdeveloped. Here we report a catalytic and enantioselective intermol. Heck-type reaction of trisubstituted-alkenyl alcs. with aryl boronic acids. This method provides direct access to quaternary all-carbon-substituted β-, γ-, δ-, ε- or ζ-aryl carbonyl compounds, because the unsaturation of the alkene is relayed to the alc., resulting in the formation of a carbonyl group. The scope of the process also includes incorporation of pre-existing stereocenters along the alkyl chain, which links the alkene and the alc., in which the stereocenter is preserved. The method described allows access to diverse mol. building blocks containing an enantiomerically enriched quaternary center.

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Epoxy compounds usually have stronger nucleophilic ability, because the alkyl group on the oxygen atom makes the bond angle smaller, which makes the lone pair of electrons react more dissimilarly with the electron-deficient system. Compound: Bromoferrocene, is researched, Molecular C10BrFe, CAS is 1273-73-0, about Synthesis, chemical reactivity and electrochemical behaviour of mono- and difluoro metallocenes.Related Products of 1273-73-0.

Syntheses of mono- and 1,1′-difluoro-substituted metallocenes (ferrocene, ruthenocene) and of asym. 1,1′-disubstituted ferrocenes with one substituent being fluorine are described. Lithiation of metallocenes and subsequent addition of the fluorinating agent NFSI gave the fluorinated metallocenes after optimization of the exptl. conditions. All new compounds were comprehensively characterized and the cyclic voltammograms of fluoro- and 1,1′-difluoroferrocene were recorded and compared to other mono- and dihalogenated ferrocenes. Half-wave potentials of +106 mV and +220 mV vs. FcH0/+ were obtained for monofluorinated species and difluorinated ferrocene, resp. Both values are remarkably low compared to the other halogenated ferrocenes (Cl, Br, and I). Finally, 1-bromo-1′-fluoro-ferrocene turns out to be an ideal starting material for further fluoro-substituted ferrocene derivatives

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Heterocyclic compounds can be divided into two categories: alicyclic heterocycles and aromatic heterocycles. Compounds whose heterocycles in the molecular skeleton cannot reflect aromaticity are called alicyclic heterocyclic compounds. Compound: 1273-73-0, is researched, Molecular C10BrFe, about 1-(1′-Bromoferrocenyl)silver, the main research direction is bismuth estimation; bismuth ferrocene compound; silver ferrocene compound; silver ferrocene compound; ferrocenes; iron organic compound.Formula: C10BrFe.

Treating 0.5 g 1-bromo-1′-ferroceneboronic acid with Ag2O from 0.5 g Ag NO3 in NH4OH and heating briefly gave 53% 1-(1′-bromoferrocenyl)-silver, decomposed 125-6°. This with concentrated HCl 10 min gave 70% bromoferrocene, while pyrolysis in xylene gave a Ag mirror and 60% bis(1′-bromoferrocenyl), m. 138-40°. Treated with HgBr2 in C6H6 the Ag salt gave 80% 1-(1′-bromoferrocenyl)-mercuric bromide, m. 143-5°. The Ag derivative and BiBr3 in C6H6 in 3-4 hrs gave bromoferrocene and 50% tris(1′-bromoferrocenyl)bismuth, m. 179.5-81°. This kept in concentrated HCl 0.5 hr, then treated with aqueous NH4OH to neutrality, then percolated with H2S, gave a precipitate which was used for estimation of Bi after washing and drying to constant weight

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In organic chemistry, atoms other than carbon and hydrogen are generally referred to as heteroatoms. The most common heteroatoms are nitrogen, oxygen and sulfur. Now I present to you an article called Direct C-C-coupling of ferrocenyl- and cymantrenyllithium with 5-(het)aryl-1,2,5-oxadiazolo[3,4-b]pyrazines, published in 2011, which mentions a compound: 1273-73-0, mainly applied to crystal structure mol oxadiazolopyrazinyl ferrocene cymantrene preparation, SDS of cas: 1273-73-0.

A direct C-C-coupling of ferrocenyl- and cymantrenyllithium with 5-(het)aryl-1,2,5- oxadiazolo[3,4-b]pyrazines was accomplished. Main characteristics of the SNH-reaction products were obtained, as well as crystallog. data on the spatial structure of oxadiazolopyrazinylferrocenes and -cymantrenes synthesized.

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The three-dimensional configuration of the ester heterocycle is basically the same as that of the carbocycle. Compound: Bromoferrocene(SMILESS: Br[C-]12[Fe+2]3456789([C-]%10C6=C7C8=C9%10)C1=C3C4=C25,cas:1273-73-0) is researched.SDS of cas: 38006-08-5. The article 《Electron-transfer properties of a nonheme manganese(IV)-oxo complex acting as a stronger one-electron oxidant than the iron(IV)-oxo analogue》 in relation to this compound, is published in Chemical Communications (Cambridge, United Kingdom). Let’s take a look at the latest research on this compound (cas:1273-73-0).

Electron-transfer properties of a nonheme Mn(iv)-oxo complex, [(Bn-TPEN)MnIV(O)]2+, reveals that Mn(iv)-oxo complex acts as a stronger 1-electron oxidant than the Fe(iv)-oxo analog. As a result, an electron transfer process in N-dealkylation was detected by a transient radical cation intermediate, para-Me-DMA√+, in the oxidation of para-Me-DMA by [(Bn-TPEN)MnIV(O)]2+.

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Most of the natural products isolated at present are heterocyclic compounds, so heterocyclic compounds occupy an important position in the research of organic chemistry. A compound: 1273-73-0, is researched, SMILESS is Br[C-]12[Fe+2]3456789([C-]%10C6=C7C8=C9%10)C1=C3C4=C25, Molecular C10BrFeJournal, Journal of Organometallic Chemistry called Synthesis, X-ray structure and chemical properties of 17α-ferrocenylestradiol, Author is Vichard, Dominique; Gruselle, Michel; Jaouen, Gerard; Nefedova, Marina N.; Mamedyarova, Irina A.; Sokolov, Viatcheslav I.; Vaissermann, Jacqueline, the main research direction is ferrocenylestradiol crystal structure reaction; estradiol ferrocenyl crystal structure reaction.Name: Bromoferrocene.

The X-ray structure of 17α-ferrocenylestradiol shows that the ferrocenyl group is at the α-position of the steroid, below the plane of the D ring. From acidic medium it is possible to obtain and isolate the derivative with a carbenium ion in 17-α position. This ion is transformed by various nucleophiles into the C(16)-C(17)-unsaturated derivative With NaBH4 in acidic medium the reduction leads to a mixture of 17α- and 17β-ferrocenylestrol with a predominance of the β product, owing to a more favorable entrance of hydride in the α position. The oxidized derivative 17α-ferrociniumylestradiol tetrafluoroborate was prepared and its properties are described.

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