Showing total 6 results

1. Trialkyl imido niobium and tantalum compounds: synthesis, structural study and migratory insertion reactionsCCDC reference number 781634. For crystallographic data in CIF or other electronic format see DOI: 10.1039/c0dt01449dThis paper is dedicated to the memory of Dr Amelio Vázquez de Miguel who died the last April 20, 2010 and whom we remember with affection.

Author

Miguel Galajov, Carlos García, Manuel Gómez, and Pilar Gómez-Sal

Subjects

*NIOBIUM compounds, *MOLECULAR structure, *CHEMICAL reactions, *CRYSTALLOGRAPHY, *METAL complexes, *SOLUTION (Chemistry), *X-ray diffraction, *HYDROLYSIS

Abstract

Trialkyl imido niobium and tantalum complexes [MR3(NtBu)] (M = Nb, R = Me 2, CH2CMe33, CH2CMe2Ph 4, CH2SiMe35; M = Ta, R = Me 6, CH2CMe2Ph 7, CH2SiMe38) have been prepared by treatment of solutions containing [MCl3(NtBu)py2] (M = Nb 1a, Ta 1b) with three equivalents of magnesium reagent. By an unexpected hydrolysis reaction of the tris-trimethylsilylmethyl imido tantalum compound 8a, a μ-oxo derivative [(Me3SiCH2O)(Me3SiCH2)3Ta(μ-O)Ta(CH2SiMe3)2(NtBu)] (8a) was formed and its structure was studied by X-ray diffraction methods. Reactions of trialkyl imido compounds with two equivalents of isocyanide 2,6-Me2C6H3NC result in the migration of two alkyl groups, leading to the formation of a series of alkyl imido bisiminoacyl derivatives [MR(NtBu){C(R)NAr}2] (Ar = 2,6-Me2C6H3; M = Nb, R = Me 9, CH2CMe310, CH2CMe2Ph 11, CH2SiMe312, CH2Ph 13; M = Ta, R = CH2CMe314, CH2CMe2Ph 15, CH2SiMe316). All compounds were studied by IR and NMR (1H, 13C and 15N) spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2011

2. Tri-chlorido, 2-methylallyl and 2-butenyl tert-butylimido niobium and tantalum complexes: Synthesis, multinuclear NMR spectroscopy and reactivityThis paper is dedicated to the memory of Dr Amelio Vázquez de Miguel who died April 20, 2010 and whom we remember with affection.

Author

Galajov, Miguel, García, Carlos, and Gómez, Manuel

Subjects

*COMPLEX compounds synthesis, *NIOBIUM compounds, *TANTALUM, *METAL complexes, *NUCLEAR magnetic resonance spectroscopy, *REACTIVITY (Chemistry), *LIGANDS (Chemistry), *GRIGNARD reagents, *ISOCYANIDES, *CHEMICAL reactions, *SOLUTION (Chemistry)

Abstract

Pseudooctahedral complexes [MCl3(NtBu)L2] (M = Nb, L = py 1, ½ tmeda 3; M = Ta, L = py 2, ½ tmeda 4) have been studied by spectroscopic methods. By a VT 1H NMR experiment a mutual exchange process between the pyaxand pyfreein the complexes 1–2was observed, whereas 13C and 15N NMR studies showed in the complexes 3–4a tmeda ligand with an axial/equatorial coordination mode. The reaction of 2with 3 equiv of Grignard reagent produces the methathesis products [TaR3(NtBu)] (R = CH2CMeCH25, CH2CHCHCH36) in which 2-methylallyl and 2-butenyl groups appear with a η3- and σ-coordination mode, respectively. When, toluene solutions of the compounds 5–6were treated with 2 equiv of 2,6-dimethylphenylisocyanide the imido bisiminoacyl compounds [TaR(NtBu){C(R)NAr-κ1C}2] (Ar = 2,6-Me2C6H3; R = CH2CMeCH27, CH2CHCHCH38) can be isolated, viaan imido iminoacyl intermediate [TaR2(NtBu){C(R)NAr-κ1C}] (Ar = 2,6-Me2C6H3; R = CH2CMeCH29) as we have observed in the treatment of 5with 1 equiv of isocyanide; however, the analogous reaction between 5and COPh2leads to the formation of the trisalkoxo imido compound [Ta(OCPh2R)3(NtBu)] (R = CH2CMeCH210). All new complexes were studied by IR and multinuclear NMR spectroscopy. [ABSTRACT FROM AUTHOR]

Published

2010

3. Drop-by-drop chemical reaction and sample introduction for capillary electrophoresis.

Author

Chen, Fengming, Rang, Ying, Weng, Ying, Lin, Luyao, Zeng, Hulie, Nakajim, Hizuru, Lin, Jin-Ming, and Uchiyama, Katsumi

Subjects

*CHEMICAL reactions, *CAPILLARY electrophoresis, *MICROCHEMISTRY, *SOLUTION (Chemistry), *FURAZANS, *AMINO acids

Abstract

In this paper, we report a novel sample introduction and chemical reaction strategy by drop-by-drop inkjet injection for an electrophoretically mediated microanalysis (EMMA). This method makes it possible to achieve an on-line introduction of reactant solutions by alternately ejecting small plugs, with an overlapping region of the plugs for mixing the reactants by electrophoresis, supporting chemical reactions, followed by electrophoretic separation of the final compounds. As a proof-of-concept of the method, the EMMA of an inkjetted mixture of 4-fluoro-7-nitrobenzofurazan (NBD-F) and amino acids was carried out as a model chemical reaction. The product NBD-amino acids were quantified by detection with laser induced fluorescence. The optimal conditions for the procedure were: inkjet driving voltage: +40–44 V; pulse width: 20–24 μs; drop-by-drop injection of reactant solutions: alternately 2 drops × 25 times for the amino acid solution and the NBD-F solution; zone overlapping voltage and time: 3 kV and 2 s; incubation time after overlapping: 5 min; separation voltage: 18 kV. Under the optimized conditions, a significant enhancement in sensitivity and a sensitive quantitative analysis were realized. The results obtained were comparable with those using the off-line labeling method. This method is rapid, cost-effective, and readily automated for EMMA. [ABSTRACT FROM AUTHOR]

Published

2015

4. Interfacial tension controlled fusion of individual femtolitre droplets and triggering of confined chemical reactions on demandElectronic supplementary information (ESI) available: Device fabrication and experimental details, droplet shrinkage rates, droplet size distributions as functions of oil channel width, CCD images of formation of silver granules, two dimensional fluorescence distributions corresponding to Fig. 3, bright field movie sequences of acidic and basic droplet fusion events for Fig. 4. See DOI: 10.1039/c0lc00376j

Author

Seung-Yong Jung, Scott T. Retterer, and C. Patrick Collier

Subjects

*SURFACE tension, *CONTROLLED fusion, *CHEMICAL reactions, *MICROFABRICATION, *SOLUTION (Chemistry), *HYDROGEN-ion concentration

Abstract

This paper describes stepwise on-demand generation and fusion of femtolitre aqueous droplets based on interfacial tension. Sub-millisecond reaction times from droplet fusion were demonstrated, as well as a reversible chemical toggle switch based on alternating fusion of droplets containing acidic or basic solution, monitored with the pH-dependent emission of fluorescein. [ABSTRACT FROM AUTHOR]

Published

2010

5. Chloride ions enhance furfural formation from d-xylose in dilute aqueous acidic solutions.

Author

Marcotullio, Gianluca and De Jong, Wiebren

Subjects

*FURFURAL, *CHLORIDES, *ENERGY consumption, *CHEMICAL reactions, *CATALYSTS, *CHEMICAL kinetics, *SOLUTION (Chemistry)

Abstract

Furfural production through traditional processes is accompanied by acidic waste stream production and high energy consumption. Modern furfural production process concepts will have to consider environmental concerns and energy requirements besides economics, moreover will have to be integrated within widened biorefinery concepts. In this paper, some particular aspects of the chemistry of d-xylose reaction to furfural are addressed, with the aim to clarify the reaction mechanism leading to furfural and to define new green catalytic pathways for its production. Specifically, reducing the use of mineral acids is addressed by the introduction of alternative catalysts. In this sense, chloride salts were tested in dilute acidic solutions at temperatures between 170 and 200 °C. Results indicate that the Cl−ions promote the formation of the 1,2-enediol from the acyclic form of xylose, and thus the subsequent acid catalyzed dehydration to furfural. For this reason the presence of Cl−ions led to significant improvements with respect to the H2SO4case. The addition of NaCl to a 50 mM HCl aqueous solution gave 90% selectivity to furfural. Among the salts tested FeCl3showed very interesting preliminary results, producing exceptionally high xylose reaction rates. [ABSTRACT FROM AUTHOR]

Published

2010

6. A new type of iodosulfite ion formulated as I2SO22−Synthesis of 2: to an aqueous solution of 1(100 mL), which was prepared according to previously reported procedures,11SO2-saturated water (40 mL) was added and the solution was cooled to 5 °C. After standing for 12 h, yellow crystals precipitated.X-Ray crystallographic study for 2: X-ray diffraction data (12 432 reflections) were collected at 277 K on a Rigaku/MSC Mercury CCD system using graphite-monochromated Mo-Kα radiation (λ= 0.71073 ). A total of 3568 reflections were unique (Rint= 0.045). A crystal of 2was attached to a glass capillary using epoxy. All calculations were performed using the teXsan crystallographic software package from Molecular Structure Corporation.12The structures were solved by direct methods (SIR-97)13and refined by full-matrix least-squares techniques (SHELXL-97)14against F2. The non-hydrogen atoms were refined anisotropically. Hydrogen atoms were generated theoretically on the specific atoms and not refine

Author

Isoroku Nagasawa, Hideaki Amita, and Hiroshi Kitagawa

Subjects

*COMPLEX compounds synthesis, *PLATINUM compounds, *ANIONS, *SOLUTION (Chemistry), *CHEMICAL reactions, *CHEMICAL structure

Abstract

This paper deals with a notable halosulfite ion, (I2SO22−), which is a rare example of this inorganic anion species; the reaction of the platinum(ii) complex, [Pt(depe)2]I2with SO2afforded the complex, [Pt(depe)2](I2SO2) containing the rare anion; considering with the VSEPR concept, the structure of the anion could be interpreted as a distorted trigonal bipyramid. [ABSTRACT FROM AUTHOR]

Published

2009