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Roy S Davydova MP Pal R Gilmore K Tolstikov GA Vasilevsky SF Alabugin IV 《The Journal of organic chemistry》2011,76(18):7482-7490
The reaction of diaryl ketoalkynes with 1,2-diamino ethane leads to the full scission of the triple bond with the formation of acetophenone and imidazoline fragments. In this transformation, one of the alkyne carbons undergoes formal reduction with the formation of three C-H bonds, whereas the other carbon undergoes formal oxidation via the formation of three C-N bonds (one π and two σ). Computational analysis confirmed that the key fragmentation step proceeds via a six-membered TS in a concerted manner. Both amines are involved in the fragmentation: the N-H moiety of one amine transfers a proton to the developing negative charge at the enolate oxygen, while the other amine provides direct stereoelectronic assistance to the C-C bond cleavage via a hyperconjugative n(N) → σ*(C-C) interaction. 相似文献
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Viktor N. Odinokov Olga S. Kukovinets Leonard M. Khalilov Genrikh A. Tolstikov Alexander Yu. Kosnikov Sergei V. Lindeman Yury T. Struchkov 《Tetrahedron letters》1985,26(47):5843-5844
The formation of the product of intramolecular interaction of a zwitterion and a methoxycarbonyl group was observed in the process of ozonating dimethyl ester of endo,cis-bicyclo [2,2,1]hept-5-en-2,3-dicarbonic acid in diethyl ether. The structure of racemic endo,cis-4-methoxy-5-methoxycarbonyl-6-formyl-1,4-epoxy-2,3-dioxacyclopenta[2,3-δ] cyclohexane was established by an X-ray structure analysis. 相似文献
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Mustafa alayan Alessandra Lucini Paioni Edy Abou‐Hamad Genrikh Shterk Alexey Pustovarenko Marc Baldus Abhishek Dutta Chowdhury Jorge Gascon 《Angewandte Chemie (International ed. in English)》2020,59(38):16741-16746
Methane dehydroaromatization (MDA) is among the most challenging processes in catalysis science owing to the inherent harsh reaction conditions and fast catalyst deactivation. To improve this process, understanding the mechanism of the initial C?C bond formation is essential. However, consensus about the actual reaction mechanism is still to be achieved. In this work, using advanced magic‐angle spinning (MAS) solid‐state NMR spectroscopy, we study in detail the early stages of the reaction over a well‐dispersed Mo/H‐ZSM‐5 catalyst. Simultaneous detection of acetylene (i.e., presumably the direct C?C bond‐forming product from methane), methylidene, allenes, acetal, and surface‐formate species, along with the typical olefinic/aromatic species, allow us to conclude the existence of at least two independent C?H activation pathways. Moreover, this study emphasizes the significance of mobility‐dependent host–guest chemistry between an inorganic zeolite and its trapped organic species during heterogeneous catalysis. 相似文献
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Genrikh E. Zelinskii Alexander S. Belov Alexander S. Chuprin Alexander A. Pavlov Anna V. Vologzhanina Ekaterina G. Lebed 《Journal of Coordination Chemistry》2017,70(13):2313-2333
Template cross-linking of nioxime using equimolar amounts of boric and 4-vinylphenylboronic acids on an iron(II) ion as a matrix gave a mixture of mono- and divinyl-terminated clathrochelate products, which were chromatographically isolated in moderate yields and characterized by X-ray diffraction. The target complex FeNx3(BOCH3)(4-BC6H4CH=CH2) with non-equivalent capping groups was also obtained in a low yield using a transmetallation (re-boronation) of its dimethoxyboron-capped clathrochelate precursor. Re-boronation of the monomethoxyboron-capped cage complex with benzene-1,4-diboronic acid as a bifunctional Lewis-acidic agent afforded mainly the clathrochelate product of its 1:1 re-boronation having a terminal B(OH)2 group. The iron(II) clathrochelate with labile triethylantimony capping groups underwent a transmetallation on the surface of silica gel giving an immobilized Sb, Si-capped macrobicyclic intermediate. Its desorption with 4-vinylphenylboronic acid unexpectedly gave the monovinyl-terminated iron(II) semiclathrochelate as the major product, isolated in a high yield; it was X-ray structurally characterized. The geometry of FeN6-coordination polyhedra of the above semi- and clathrochelates is intermediate between a trigonal prism and a trigonal antiprism; that of the monocapped iron(II) semiclathrochelate is more TAP-distorted and its pseudoencapsulated iron(II) ion is shifted from the center of this polyhedron by 0.02 Å in the direction of the capping boron atom. 相似文献
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Genrikh E. Zelinskii Ilya P. Limarev Anna V. Vologzhanina Valentina A. Olshevskaya Anton V. Makarenkov Pavel V. Dorovatovskii Alexander S. Chuprin Mikhail A. Vershinin Semyon V. Dudkin Yan Z. Voloshin 《Molecules (Basel, Switzerland)》2021,26(12)
A synthetic strategy for obtaining structurally flexible hybrid iron(II) carboranoclatrochelates functionalized with biorelevant groups, based on a combination of a 1,3-dipolar cycloaddition reaction with nucleophilic substitution of an appropriate chloroclathrochelate precursor, was developed. In its first stage, a stepwise substitution of the dichloroclathrochelate precursor with amine N-nucleophiles of different natures in various solvents was performed. One of its two chlorine atoms with morpholine or diethylamine in dichloromethane gave reactive monohalogenoclathrochelate complexes functionalized with abiorelevant substituents. Further nucleophilic substitution of their remaining chlorine atoms with propargylamine in DMF led to morpholine- and diethylamine-functionalized monopropargylamine cage complexes, the molecules of which contain the single terminal C≡C bond. Their “click” 1,3-cycloaddition reactions in toluene with ortho-carborane-(1)-methylazide catalyzed by copper(II) acetate gave spacer-containing di- and tritopic iron(II) carboranoclatrochelates formed by a covalent linking between their different polyhedral(cage) fragments. The obtained complexes were characterized using elemental analysis, MALDI-TOF mass, UV-Vis, 1H, 1H{11B}, 11B, 11B{1H}, 19F{1H} and 13C{1H}-NMR spectra, and by a single crystal synchrotron X-ray diffraction experiment for the diethylamine-functionalized iron(II) carboranoclathrochelate. Its encapsulated iron(II) ion is situated almost in the center of the FeN6-coordination polyhedron possessing a geometry intermediate between a trigonal prism and a trigonal antiprism with a distortion angle φ of approximately 28°. Conformation of this hybrid molecule is strongly affected by its intramolecular dihydrogen bonding: a flexibility of the carborane-terminated ribbed substituent allowed the formation of numerous C–H…H–B intramolecular interactions. The H(C) atom of this carborane core also forms the intermolecular C–H…F–B interaction with an adjacent carboranoclathrochelate molecule. The N–H…N intermolecular interaction between the diethylamine group of one hybrid molecule and the heterocyclic five-membered 1H-[1,2,3]-triazolyl fragment of the second molecule of this type caused formation of H-bonded carboranoclathrochelate dimers in the X-rayed crystal. 相似文献
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Polyakov NE Khan VK Taraban MB Leshina TV Luzina OA Salakhutdinov NF Tolstikov GA 《Organic & biomolecular chemistry》2005,3(5):881-885
CIDNP techniques were applied to the investigation of the elementary mechanism of photoinduced interaction between anti-arrhythmic drug lappaconitine and amino acids tyrosine and tryptophan. It has been shown that the reactions involve the formation of lappaconitine radical anion. Lappaconitine radical anion is unstable and rapidly eliminates N-acetyl anthranilic acid via protonation and ether bond cleavage. The rate constant of ether bond cleavage was estimated to be equal to 4 x 10(5) s(-1). The role of single electron transfer is discussed in the light of the model of drug-receptor interactions. 相似文献
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Polyakov NE Khan VK Taraban MB Leshina TV Salakhutdinov NF Tolstikov GA 《The journal of physical chemistry. B》2005,109(51):24526-24530
NMR and UV-vis spectroscopy have been used to study the complexation of antiarrhythmic alkaloid lappaconitine with an efficient complexing agent from licorice, glycyrrhizic acid, which is known to profoundly influence the therapeutic activity of the alkaloid in the complex. In MeOH, DMSO, or aqueous solutions, lappaconitine has been shown to form a stable complex with glycyrrhizic acid with 1:1 stoichiometry over a broad concentration range from 1 microM to 300 microM. The stability constant K(11) equals 2.0 x 10(5) M(-1) in aqueous solution. A similar complex of lappaconitine hydrobromide--the pharmaceutical formulation used in the treatment of arrhythmia--is 2 orders of magnitude less stable than pure lappaconitine. A notable decrease in the rate of the photoinduced electron-transfer reaction between lappaconitine in a complex with glycyrrhizic acid and tyrosine allows the suggestion of an explicit interrelation between the suppressed chemical reactivity of the bound alkaloid and the changes of its therapeutic efficiency. 相似文献