Search results for "Glyoxal"

showing 9 items of 19 documents

Molecular Characterization and Source Identification of Atmospheric Particulate Organosulfates Using Ultrahigh Resolution Mass Spectrometry.

2019

Organosulfates (OSs) have been observed as substantial constituents of atmospheric organic aerosol (OA) in a wide range of environments; however, the chemical composition, sources, and formation mechanism of OSs are still not well understood. In this study, we first created an "OS precursor map" based on the elemental composition of previous OS chamber experiments. Then, according to this "OS precursor map", we estimated the possible sources and molecular structures of OSs in atmospheric PM2.5 (particles with aerodynamic diameter ≤ 2.5 μm) samples, which were collected in urban areas of Beijing (China) and Mainz (Germany) and analyzed by ultrahigh-performance liquid chromatography (UHPLC) c…

China010501 environmental sciencesOrbitrapMass spectrometry01 natural sciencesMass Spectrometrylaw.inventionchemistry.chemical_compoundlawGermanyEnvironmental ChemistryChemical compositionIsoprene0105 earth and related environmental sciencesAerosolsAir PollutantsSulfatesGeneral ChemistryParticulatesCharacterization (materials science)AerosolchemistryEnvironmental chemistryBeijingGlyoxalEnvironmental MonitoringEnvironmental sciencetechnology
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Oxide anodes in electro-organic oxidation. Oxidation of maleic addon tungsten oxide anodes

1982

The electrochemical oxidation of maleic acid on tungsten anodes has been investigated. Glyoxal and carbon dioxide were the main products together with tartaric acid and acetaldehyde. Glyoxal is also obtained as the main product from the oxidation ofd-tartaric acid. Under the same conditions succinic acid is completely oxidized to carbon dioxide and water. The anodic dissolution of tungsten and the oxidation of water to oxygen become predominant in the final stages of the electrolyses.

Electrolysis of waterMaleic acidChemistryGeneral Chemical EngineeringInorganic chemistryOxideAcetaldehydechemistry.chemical_elementTungstenequipment and supplieschemistry.chemical_compoundSuccinic acidMaterials ChemistryElectrochemistryTartaric acidGlyoxalJournal of Applied Electrochemistry
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An electrochemical process to prepare and recycle biobased ionic liquids

2019

This manuscript describes the first electrosynthesis of biobased ionic liquids from L-valine, oxalic acid and glyoxal, which is energy-efficient, does not emit toxic waste and avoids the formation of inorganic waste. These ionic liquids were then used in the development of our electro-recycling process. While their recycling yields are still moderated due to recombination and disproportionation reactions, this unprecedented recycling technology is very promising in terms of environmental and economic gains. Indeed, it has a high energy efficiency, requires low cost equipment, allows a strong decrease of the price of such ionic solvents, limits the use of non-renewable resources and solves t…

Materials science010405 organic chemistryOxalic acidIonic bondingDisproportionation010402 general chemistryElectrosynthesisElectrochemistry01 natural sciencesPollution0104 chemical scienceschemistry.chemical_compoundchemistryChemical engineeringScientific methodIonic liquidEnvironmental ChemistryGlyoxalGreen Chemistry
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Nutraceutical Value of Pantelleria Capers (Capparis spinosa L.)

2019

Abstract: Unopened flower buds of Capparis spinosa L. (capers), generally used in the Mediterranean area as food flavoring, are known to be a good source of bioactive compounds. The aim of this work was to evaluate the nutraceutical value of salt-fermented capers collected from different areas of Pantelleria Island (Italy), testing their methylglyoxal and glyoxal trapping capacity and antioxidant activity by 2,2-diphenyl-1-picryl hydrazyl (DPPH), [2,2-azinobis(3-ethylben- zothiazoline-6-sulfonic acid)] diammonium salt (ABTS), and oxygen radical absorbance capacity (ORAC) assays. Hydrophilic extracts were also characterized by high-performance liquid chromatography–electrospray ionization/ma…

Oxygen radical absorbance capacity030309 nutrition & dieteticsDPPHFlavonoidGlucosinolatesAntioxidantsCapparis spinosa03 medical and health scienceschemistry.chemical_compound0404 agricultural biotechnologyfoodFlavonolsPhenolsnutraceutical propertiesFood scienceKaempferolsChromatography High Pressure LiquidPantelleria Island caperschemistry.chemical_classificationFlavonoids0303 health sciencesABTSPlant ExtractsCapparis spinosa04 agricultural and veterinary sciencesnutraceutical propertie040401 food sciencefood.foodSettore AGR/03 - Arboricoltura Generale E Coltivazioni ArboreeCapparischemistryItalymethylglyoxal and glyoxal trapping capacityhydrophilic extract compositionDietary SupplementsSeedsQuercetinQuercetinKaempferolFood Science
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Global impact of monocyclic aromatics on tropospheric composition

2017

Abstract. Aromatic compounds are reactive species influencing ozone formation, OH concentrations and organic aerosol formation. An assessment of their impacts on the gas-phase composition at a global scale has been performed using a general circulation atmospheric-chemistry model. Globally, we found a small annual average net decrease (less than 3 %) in global OH, ozone, and NOx mixing ratios when aromatic compounds are included in the chemical mechanism. This inclusion of aromatics also results in CO mixing ratio increases, which cause a general decrease in OH concentrations. The largest changes are found in glyoxal and NO3, with increases in the atmospheric burden of 10 % and 6 %, respect…

Ozone010504 meteorology & atmospheric sciencesFormaldehyde010501 environmental sciences01 natural sciencesAerosolTropospherechemistry.chemical_compoundchemistryAtmospheric chemistryEnvironmental chemistryddc:550Mixing ratioGlyoxalNOx0105 earth and related environmental sciences
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Rheological characterization of chitosan matrices: Influence of biopolymer concentration

2007

Viscoelastic properties of chitosan (CH), chitosan-poly(ethylene glycol) 400 (CH-PEG), and chitosan-poly(ethylene glycol) 400 with glyoxal as crosslinking agent (CH-PEG-Gly) systems were studied to analyze the effect of chitosan concentration (from 0.83 to 1.67%). Dynamic moduli increase as chitosan concentration increases for all systems. For CH and CH-PEG systems the loss modulus (G″) is greater than the storage modulus (G′) with predominance of the viscous over the elastic behavior. This corresponds to the characteristic behavior of solutions (nonstructured systems). The presence of PEG 400 induces a complementary reinforcement of the mechanical properties of the system. Except for the l…

PEG 400Materials sciencePolymers and PlasticsRheometrytechnology industry and agricultureConcentration effectmacromolecular substancesGeneral ChemistryDynamic mechanical analysisViscoelasticitySurfaces Coatings and Filmschemistry.chemical_compoundChemical engineeringchemistryDynamic modulusMaterials ChemistryGlyoxalComposite materialEthylene glycolJournal of Applied Polymer Science
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Acyclovir Delivery Matrices Based on Poly(Ethylene Glycol)/Chitosan Semi-Interpenetrating Networks

2007

Abstract Chitosan matrix systems have been studied as potential vehicles for the prolonged release of acyclovir (ACV). The influence of chitosan concentration (from 0.83% to 1.67%) on viscoelastic properties of formulations with and without glyoxal was analyzed. For chitosan‐poly(ethylene glycol) 400 formulations loss modulus ( G ″) are greater than storage modulus ( G ′). This corresponds to the characteristic behavior of nonstructured systems. When glyoxal was added to the chitosan‐poly(ethylene glycol) 400 formulations, gelled matrix was obtained (i.e., G ′ is higher than G ″), except for the lowest chitosan concentration. ACV release rates for the both types of systems, with and without…

RheometryViscosityChemistry PharmaceuticalDiffusionAcyclovirPharmaceutical ScienceGlyoxalDynamic mechanical analysisElasticityViscoelasticityPolyethylene GlycolsDiffusionChitosanchemistry.chemical_compoundSolubilitychemistryDynamic modulusGlyoxalOrganic chemistryEthylene glycolDrugs Chinese HerbalNuclear chemistryJournal of Pharmaceutical Sciences
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CCDC 105612: Experimental Crystal Structure Determination

1999

Related Article: T.Schleis, T.P.Spaniol, J.Okuda, J.Heinemann, R.Mulhaupt|1998|J.Organomet.Chem.|569|159|doi:10.1016/S0022-328X(98)00784-0

Space GroupCrystallography(NN'-bis(26-Di-isopropylphenyl)glyoxalimine)-bis(trimethylsilylmethyl)-nickel(ii)Crystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates
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CCDC 621602: Experimental Crystal Structure Determination

2008

Related Article: A.S.Roy, N.Muresan, H.M.Tuononen, S.P.Rath, P.Ghosh|2008|Dalton Trans.||3438|doi:10.1039/b802063a

Space GroupCrystallographyCrystal SystemCrystal StructureCell ParametersExperimental 3D Coordinates(glyoxalbis(2-oxyanil))-bis(triphenylphosphine)-cobalt(iii) trichloro-(triphenylphosphine)-cobalt(ii) ethanol solvate
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