Saturated Nitrogen-containing Heterocycles. 20. Catalytic Reduction of N-Hydroxyethylpyridinium and Quinolinium Salts

Previously unknown N-(2-hydroxyethyl)perhydroquinolines and N-(2-hydroxyethyl)piperidines were synthesized by catalytic reduction of N-(2-hydroxyethyl)tetrahydroquinolinium and N-(2-hydroxyethyl)tetrahydropyridinium tetrafluoroborates. A scheme for the formation of the hydrogenation products is presented.     

Acid-catalyzed Conversions of N-(4-Nitrobenzylidene)-2-cyclopropyl- and N-(4-Nitrobenzylidene)-2-alkenylanilines. A new Method for the Synthesis of Dihydroquinolines and Quinolines

The acid-catalyzed conversions of N-(4-nitrobenzylidene)-2-cyclopropyl- and N-(4-nitrobenzylidene)-2-alkenylanilines have been studied. It has been established that the protonated azomethine unit of N-(4-nitrobenzylidene)-2-cyclopropylanilines is not capable of initiating intramolecular heterocyclization with participation of the three-membered ring. Conversion of N-(4-nitrobenzylidene)-2-(1-methylcyclopropyl)aniline to derivatives of quinoline is possible under the influence of concentrated H₂SO₄. Under the same conditions 2-methylcyclopropyl- and cyclopropyl-substituted Schiff's bases form only the corresponding alkenylazomethines (isomerization of the three-membered ring). Under the influence of more moderate acids (trifluoroacetic, polyphosphoric) N-(4-nitrobenzylidene)-2-propenyl- and N-(4-nitrobenzylidene)-2-buten-2-yl)anilines are converted to the corresponding dihydroquinolines and quinolines in high yields. N-(4-Nitrobenzylide! ne)- 2-(2,2-dimethylvinyl)aniline does not form derivatives of quinoline under the influence of the same acids in the given conditions.     

Thermochemical and thermal analysis on N-(p-methylphenyl)-N'-(2-pyridyl)urea

Low temperature heat capacities of N-(p-methylphenyl)-N'-(2-pyridyl)urea were determined by adiabatic calorimetry method in the temperature range from 80 to 370 K. It was found that there was not any heat anomaly in this temperature region. Based on the experimental data, some thermodynamic function results were obtained. Thermal stability and decomposition characteristics analysis of N-(p-methylphenyl)-N'-(2-pyridyl)urea were carried out by DSC and TG. The results indicated that N-(p-methylphenyl)-N'-(2-pyridyl)urea started to melt at ca. 426 K (153°C) and the melting peak located at 447.01 K (173.86°C). The melting enthalpy was 204.445 kJ mol^-1 (899.6 J g^-1). The decomposition peak of N-(p-methylphenyl)-N'-(2-pyridyl)urea was found at 499.26 K (226.11°C) from DSC curve. This result was similar with that from TG and DTG experiment, in which the mass loss peak was determined as 500.4 K (227.2°C). This revised version was published online in August 2006 with corrections to the Cover Date.     

Synthesis of compounds with a four-coordinate boron atom from 2-aminobenzazoles and nitriles

The reactions of 2-aminobenzazoles with nitriles in the presense of organoboranes results in the formation of novel tricyclic chelate boron compounds with N-(benzazol-2-yl)amidines as ligands, N-(Benzothiazol-2-yl)-p-chlorobenzamidine was prepared from 2-aminobenzothiazole and p-chlorobenzonitrile via the corresponding chelate.Translated fromIzvestiya Akademii Nauk. Seriya Khimicheskaya, No. 4, pp. 1019–1021, April,.     

N-(2-Pyridyl)amides of 2,4-Dioxobutyric Acids in Reactions with Diazoalkanes

N-(2-Pyridyl)amides of 4-R-2-alkoxy-4-arylcrotonic acids and 3-alkoxy-3-aroylmethyl-2-oxo-2,3-dihydroimidazo[1,2-a]pyridines have been synthesized by the interaction of N-(2-pyridyl)amides of 4-aryl-2,4-dioxobutyric acids with diazoalkanes. The structure and mechanism of formation of the products are discussed.     

Polystyrene bis[N-(2-pyridyl) sulfonamide] palladium(II): Synthesis,characterization as a catalyst for coupling reactions

The [N-(2-pyridyl)] para-styrene sulfonamide (PSS) was prepared as a monomer, from the reaction of para-styrene sulfonyl chloride and 2-amino pyridine in the presence of potassium hydroxide solution 0.5 M as a base, and CH₃Cl. Polystyrene [N-(2-pyridyl) sulfonamide] (PPSS) was synthesized from the polymerization of [N-(2-pyridyl)] para-styrene sulfonamide (PSS). The Polystyrene bis [N-(2-pyridyl) sulfonamide] palladium (II) as a polymer- supporting palladium complex was also prepared from the reaction of PdCl₂ (CH₃CN)₂ with PPSS in the presence of KOH 0.5 M. Polystyrene bis [N-(2-pyridyl) sulfonamide] palladium (II) is produced as a novel heterogeneous catalyst for coupling reactions for C-C bond formation. This method includes higher yield and has an easier work-up procedure. The structures of the monomer, polymer and its Pd complex were confirmed by using FT-IR and ¹H-NMR spectroscopy. Elemental analysis of Pd by inductively coupled plasma (ICP) technique and hot filtration test showed loading of the metal into solution from the catalyst The heterogeneous catalyst was recycled without any loss in its properties.     

Heterocyclic Ions From N-Oxides of N-(4-Nitrobenzylidene)-2-cyclopropylaniline and N-(4-Nitrobenzylidene)-2-cyclopropylmethylniline: Formation, Isomerization, and Conversions

The N-oxide of N-(4-nitrobenzylidene)-2-cyclopropylaniline is converted by the action of strong acids into the corresponding 2,1-benzoxazinium derivative. Under identical conditions the N-oxide of N-(4-nitrobenzylidene)-2-cyclopropylmethylaniline forms the corresponding 2,1-benzoxazinium and 2,1-benzoxazepinium salts in a ratio of 1 : 2. The 2,1-benzoxazepinium ions are thermodynamically less stable and are isomerized with time into 2,1-benzoxazinium ions. Treatment of 2,1-benzoxazinium salts with hydrobromic acid solution and subsequent neutralization leads to o-(2-hydroxyalkyl)anilines and p-nitrobenzaldehyde. The effect of the nature of the ortho substituent on the direction of the conversions of the corresponding arylcyclopropanes is discussed.     

Darstellung und Strukturen einiger N-(Tri-t-butoxysilyl)anilin-Derivate

Formation and Structures of N-(tri-t-butoxysilyl)aniline Compounds Para-substituted N-(tri-t-butoxysilyl)anilines (t-BuO)₃SiNRC₄H₄X-p, R = H, CH₃, with substituents of high electron affinity (X = CN, NO₂) were prepared by a one-pot reaction of tri-t-butoxychlorsilane, potassium t-butanolate and substituted anilines. Corresponding compounds with substituents of low electron affinity (X = OMe, H) preferably were prepared by metalation of anilines with sodium amide. Four crystal structures were determined. N-(tri-t-butoxysilyl)-p-nitro-aniline, N-methyl-(N-tri-t-butoxysilyl)-p-nitroaniline and N-(tri-t-butoxysilyl)-p-cyanoaniline crystallize at 298 K monoclinically, N-(tri-t-butoxysilyl)aniline crystallizes orthorhombically.     

Cyclizations of N-(1-Chloro-2,2,2-trihaloethylidene)-O-methylurethanes with 5-Amino-3-methylisoxazole and 3-Amino-5-methylisoxazole

N-(1-Chloro-2,2,2-trihaloethylidene)-O-methylurethanes undergo cyclization with 5-amino-3-methylisoxazole and 3-amino-5-methylisoxazole to give respectively 6-trihalomethylisoxazolo[5,4-d]pyrimidin-4(5H)-ones and 2-trihalomethyl-4H-isoxazolo[2,3-a]-1,3,5-triazin-4-ones.     

Polarographic study of composition and stability constants of Pb(II) N-(2-acetamido) imino diacetate complexes

Summary The complexation of Pb(II) by N-(2-acetamido) imino diacetate (ADA) has been studied polarographically (dc and ac polarographic techniques). Ac polarographic studies have been particularly helpful in deciding the reversibility of the reduction of both simple and complexed metal ions and for confirmation of the overall stability constants. A weighted least squares numerical technique has been applied for the calculation of the overall stability constants using both dc and ac techniques. The reduction of Pb(II) in N-(2-acetamido) iminodiacetate solutions has been found to be reversible and diffusion controlled, involving a two electron transfer process. Potential vs. concentration data at =0.1 mol dm^–3 (KNO₃) are interpreted on the basis of the formation of two complex species PbADA and Pb(ADA)^2– in thepH range 6.85–8.50. The logarithms of the stability constants (calculated from ac measurements) of these complexes are 8.73±0.12, 10.86±0.18 at 25°C, 8.31±0.28, 10.31±0.09 at 35°C and 7.61±0.20, 10.10±0.11 at 45°C, respectively. The thermodynamic parameters G, H and S have been calculated at 35°C.

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Polarographische Untersuchung von Zusammensetzung und Stabilitätskonstanten von Pb(II) N-(2-Acetamido)iminodiacetat-Komplexen

Zusammenfassung Es wurde die Komplexierung von Pb(II) mit N-(2-Acetamido)iminodiacetat (ADA) polarographisch mittels DC- und AC-Techniken untersucht. Insbesonders AC-Polarographie ergab eine klare Entscheidung bezüglich der Reversibilität der Reduktion von einfachen und komplexierten Metallionen und für die Bestätigung der Stabilitätskonstanten. Zur Bestimmung der Gesamtstabilitätskonstanten wurde eine gewichtete mittlere Fehlerquadrat-Methode auf Basis von DC- und AC-Messungen herangezogen. Die Reduktion von Pb(II) in N-(2-Acetamido)iminodiacetat-Lösung stellte sich als ein reversibler und diffusionskontrollierter Zweielektronen-Transferprozess heraus. Die Abhängigkeit des Potentials von der Konzentration bei =0.1 mol dm^–3 (KNO₃) läßt sich mit der Bildung von zwei Komplex-Spezies PbADA und Pb(ADA)^2– impH-Bereich 6.85–8.50 erklären. Die Logarithmen der Stabilitätskonstanten dieser Komplexe (aus AC-Messungen) sind 8.73±0.12 und 10.86±0.18 bei 25°C, 8.3 ±0.28 und 10.31±0.09 bei 35°C bzw. 7.61±0.20 und 10.10±0.11 bei 45°C. Die thermodynamischen Parameter G, H und S wurden für eine Temperatur von 35°C berechnet.

     

Reaction of 2-Chloro-5-(chloromethyl)thiophene with Monoethanolamine Vinyl Ether

At the alkylation of monoethanolamine vinyl ether with 2-chloro-5-(chloromethyl)thiophene in ethyl alcohol (60-70°C) a product of disubstitution and transvinylation, viz. N,N-bis(5-chloro-2-thienylmethyl)-N-(2-hydroxyethyl)ammonium chloride is formed. The analogous reaction in the absence of solvent proceeds with the formation of N-(5-chloro-2-thienylmethyl)-N-(2-vinyloxyethyl)amine.     

Crystal structure of barium bis [N-(2-hydroxyethyl)iminodiacetato]cobaltate(III) hydrocarbonate dihydrate Ba(μ4-HCO3)[ trans (N)-Co(heida)2]·2H2O

Ba[Co(heida)₂](HCO₃)·2H₂O crystals were grown (orthorhombic, a = 9.4491(5) Å, b = 10.9719(5) Å, c = 19.6077(9) Å, Z = 4, space group Pca2₁), and their structure was solved by X-ray diffraction. The Co atoms in the complex anion were coordinated by two N-(2-hydroxyethyl)iminodiacetate (heida) ligands via the N atom and two O atoms of each ligand. The Ba atoms and the complex anions form “honeycomb” layers linked via three O atoms. The “honeycombs” are additionally linked by their Ba atoms with the O atoms of the hydroxyethyl groups. The Ba atoms are aligned within a layer and linked via the bridging HCO₃ hydrocarbonate groups. The c.n. of Ba atoms is 10 (one water molecule; five O atoms of the complex anions, one from each of the nearest neighbors; and four O atoms of the hydrocarbonate ions). Original Russian Text Copyright ? 2008 by M. Zabel, A. L. Poznyak, and V. I. Pavlovskii __________ Translated from Zhurnal Strukturnoi Khimii, Vol. 49, No. 3, pp. 594–597, May–June, 2008.     

Unusual course of the reaction of N-(tosylmethyl)thiourea and N-(azidomethyl)thiourea with sodium enolate of dimedone

The end product of the reaction of N-(tosylmethyl)thiourea or N-(azidomethyl)thiourea with sodium enolate of dimedone is bis(2-hydroxy-4,4-dimethyl-6-oxocyclohex-1-enyl)methane (methylenebisdimedone) instead of the expected 8a-hydroxy-7,7-dimethyl-2-thioxoperhydroquinazolin-5-one.M. V. Lomonosov State Academy of Fine Chemical Technology, Moscow 117571, Russia; Translated from Khimiya Geterotsiklicheskikh Soedinenii, No. 1, pp. 70–72, January, 2000.     

三氯锗取代丙酰氢化噻唑-2-硫酮类化合物及其水解产物的合成

某些有机锗化物,例如β-羧乙基锗倍半氧化物及其衍生物能诱发干扰素,对癌症有一定疗效,日本专利报道丙酰胺基锗倍半氧化物及其衍生物也具有抗癌活性^[2,3],白明章等曾合成丙酰芳胺基锗倍半氧化物^[4]。     

Heterocyclization of Functionalized Heterocumulenes with C,N- and C,O-Binucleophiles. 1. Cyclocondensation of 1-Chloroalkylheterocumulenes and N-(1-Chloroalkylidene)urethanes with 2-Cyanomethylpyridine

The interaction of 1-chloroalkyl isocyanates, 1-chloroalkylcarbodiimides, 1,1-dichloroalkyl isocyanates, and N-(1-chloroethylidene)-O-methylurethanes with 2-cyanomethylpyridine has been investigated. An effect of organic base has been detected on the regioselectivity of the cyclocondensation of 1-chloroalkyl isocyanates, which leads to 2,3-dihydro-1H-pyrido[1,2-c]pyrimidin-1-one or the isomeric 2,3-dihydro-1H-pyrido[1,2-c]pyrimidin-3-one. Irrespective of the cyclization conditions 1-chloroalkylcarbodiimides react with the formation of 1-imino-2,3-dihydro-1H-pyrido[1,2-c]pyrimidines. One type of product, a 1H-pyrido[1,2-c]pyrimidin-1-one, was also isolated from 1,1-dichloroalkyl isocyanates and N-(1-chloroalkylidene)urethanes.     

Complexes of cobalt(2+) chloride with hydrochlorides of N-(1,2,4-triazol-5-yl)- and N-(tetrazol-5-yl)benzamidines

We have synthesized complex compounds of Co(2+) chloride with hydrochlorides of N-(1,2,4-triazol-5-yl)benzamidine and N-(tetrazol-5-yl)benzamidine. According to magnetochemistry and electron spectroscopy data, the ligands are coordinated in a bidentate fashion with the N atom of the amidine group and the N atom of the heterocycle with formation of the tetrahedral chromophore CoN₂Cl₂.Institute of Inorganic Chemistry, Siberian Branch, Russian Academy of Sciences, 630090 Novosibirsk. N. D. Zelinskii Institute of Organic Chemistry, Russian Academy of Sciences, 117913 Moscow. Translated from Izvestiya Akademii Nauk, Seriya Khimicheskaya, No. 10, pp. 2311–2315, October, 1992.     

Studies on Binuclear Co(II) and Cu(II) Complexes of Tridentate N-(2-Carboxyphenyl)Salicylideneimine

Homo Cu(II) and Co(II) binuclear complexes H[MLClMCl₂] formed by using the donor properties of the cis two oxygen atoms of the tridentate N-(2-carboxyphenyl)-salicylaldimine Schiff base derived from salicylaldehyde and anthranilic acid have been synthesized. It was found that the Cu(II) “complexed ligand” readily reacts with CoCl₂ to form mononuclear Co(II) and binuclear oxygen bridged Co(II) complex [Co₂-L₂](H₂O)₂. The structure of the so prepared complexes was investigated using microchemical analysis, molar conductance measurements as well as electronic and vibrational spectral studies. It was concluded that in the Cu(II) binuclear complex, the Cu(II) ion inside the “complexed ligand” has a planar structure while the other Cu(II) ion is distorted away from planarity. In the Co(II) binuclear complex, the Co atom of the “complexed ligand” is distorted from tetrahedral structure when it coordinates to the second Co atom.     

Lanthanide(III) complexes of N-salicylideneglycine and N-(2-hydroxy-1-naphthylidene) glycine

New lanthanide(III) complexes of N-salicylideneglycine and N-(2-hydroxy-1-naphthylidene) glycine have been prepared and characterized by elemental analytical, molar conductance, and IR and UV-visible spectral data. Both the ligands (H₂L) have been found to act as monobasic tridentate towards lanthanide ions, yielding complexes of the type [Ln(HL)₂(NO₃)] and [Ln(HL)₂(Cl)(H₂O)]. The spectral data reveal that the HL moiety is bonded to the central atom through its phenolic oxygen, imine nitrogen and a carboxylate oxygen, and that the nitrato group acts as bidentate. From the observed pattern of hypersensitivef-f bands, octacoordination is construed.     

N-(2-甲基-6-乙基苯基)丙氨酸对映体的毛细管电泳分离

采用高效毛细管区带电泳法,以β-环糊精及其衍生物作为手性选择剂,对外消旋N-(2-甲基-6-乙基苯基)丙氨酸(EMPA)的两个对映体进行了手性分离,比较了环糊精种类、环糊精浓度、电解质溶液pH值、温度和电场强度对分离的影响.实验结果表明,采用2,6-O-二甲基-β-环糊精为手性选择试剂,环糊精浓度为40mmol/L、电解质溶液pH=5.5及温度为20℃时分离效果最佳,对映体基本达基线分离,线性范围为20～200mg/L,最低检测限为10mg/L.