Search results for "Highly porous"

showing 10 items of 11 documents

Automated Diffraction Tomography for the Structure Elucidation of Twinned, Sub-micrometer Crystals of a Highly Porous, Catalytically Active Bismuth M…

2012

010405 organic chemistryChemistrystructure elucidationInorganic chemistrychemistry.chemical_elementGeneral Medicine02 engineering and technologyGeneral Chemistry010402 general chemistry021001 nanoscience & nanotechnologyHeterogeneous catalysis01 natural sciencesCatalysis0104 chemical sciencesBismuthbismuth; heterogeneous catalysis; metal-organic frameworks; structure elucidationSub micrometerDiffraction tomographyheterogeneous catalysisChemical engineeringbismuthHighly porousMetal-organic framework0210 nano-technologymetal-organic frameworksAngewandte Chemie International Edition
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Guest Induced Strong Cooperative One- and Two-Step Spin Transitions in Highly Porous Iron(II) Hofmann-Type Metal-Organic Frameworks.

2017

[EN] The synthesis, crystal structure, magnetic, calorimetric, and Mo¿ ssbauer studies of a series of new Hofmann-type spin crossover (SCO) metal¿organic frameworks (MOFs) is reported. The new SCO-MOFs arise from self-assembly of FeII, bis(4-pyridyl)butadiyne (bpb), and [Ag(CN)2] ¿ or [MII(CN)4] 2¿ (MII = Ni, Pd). Interpenetration of four identical 3D networks with ¿-Po topology are obtained for {Fe(bpb)[AgI (CN)2]2} due to the length of the rod-like bismonodentate bpb and [Ag(CN)2] ¿ ligands. The four networks are tightly packed and organized in two subsets orthogonally interpenetrated, while the networks in each subset display parallel interpenetration. This nonporous material undergoes a…

Hofmann-type coordination polymers010405 organic chemistryStereochemistryCrystal structure010402 general chemistry01 natural sciences0104 chemical sciencesInorganic ChemistryNitrobenzenechemistry.chemical_compoundCrystallographychemistrySpin crossoverFISICA APLICADAHighly porousMössbauer spectroscopyMoleculePhysical and Theoretical ChemistrySpin (physics)Porous mediumta116Inorganic chemistry
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Porous materials applied to biomarker sensing in exhaled breath for monitoring and detecting non-invasive pathologies

2020

International audience; Overview of the use of porous materials for gas sensing to analyze the exhaled breath of patients for disease identification.The quantification of specific gases among thousand of VOCs (Volatile Organic Compounds) present in the human breath at the ppm/ppb level can be used to evidence the presence of diseases in the human body. The detection of these biomarkers in human exhaled breath through a noninvasive approach is an important field of research which is still attracting important attention to this day. A portable device working at room temperature and usable directly on exhaled breath samples is still a challenge requiring a sensing material with high performanc…

Materials scienceCrystalline materialsNon invasiveNanotechnology[CHIM.MATE]Chemical Sciences/Material chemistry02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnologyHighly selective01 natural sciences0104 chemical sciencesInorganic Chemistry[CHIM.POLY]Chemical Sciences/PolymersBreath TestsExhalationLimit of DetectionHighly porousHumans[CHIM.COOR]Chemical Sciences/Coordination chemistry[SDV.IB]Life Sciences [q-bio]/Bioengineering0210 nano-technologyPorous mediumPorosityBiomarkersDalton Transactions
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An experimental method for the investigation of rigid polyurethane foams in shear

2018

Widespread applications of rigid polyurethane and plastic foams lead to shear deformations. Therefore, methods for ensuring shear using experimental investigations are necessary, including the possibility of determining the shear modulus, strength and limit angle. Therefore, a device that allows investigating the shear properties of highly porous plastic foams was developed. The proposed device comprises a clip-on extensometer, commonly exploited in uni-axial compression/tension tests, for the determination of the shear displacement directly on the foams’ sample, on a measurement zone of certain dimensions and location. An innovative construction of the extensometer’s legs is elaborated, p…

Materials sciencePolymers and PlasticsIsotropyModulus02 engineering and technologyGeneral Chemistry021001 nanoscience & nanotechnologyPenetration testShear moduluschemistry.chemical_compound020303 mechanical engineering & transports0203 mechanical engineeringShear (geology)chemistryHighly porousMaterials ChemistryComposite material0210 nano-technologyExtensometerPolyurethaneJournal of Cellular Plastics
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Determination of highly porous plastic foam structural characteristics by processing light microscopy images data

2013

Mathematical modelling of physical and mechanical properties of plastic foam as well as numerous practical applications requires knowledge of foam structural characteristics. A necessity exists to determine the characteristics of the spatial structure of inhomogeneous materials comprising inclusions of other material, e.g., polyurethane foam without destructing the material and analysis of each element. A methodology is elaborated for preparing highly porous plastic foam specimens and investigation of foam strut-like structure with light microscopy (LM) by taking images in three mutually perpendicular planes. A mathematical model is developed for highly porous plastic foam for the determina…

Materials sciencePolymers and PlasticsSpatial structureProbability density functionGeneral ChemistrySurfaces Coatings and Filmschemistry.chemical_compoundDistribution functionchemistryHighly porousMicroscopyMaterials ChemistryPerpendicularPlastic foamComposite materialPolyurethaneJournal of Applied Polymer Science
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Preparation of Highly Porous Carbonous Electrodes by Selective Laser Sintering

2019

Selective laser sintering (SLS) 3D printing was utilized to fabricate highly porous carbonous electrodes. The electrodes were prepared by using a mixture of fine graphite powder and either polyamide-12, polystyrene, or polyurethane polymer powder as SLS printing material. During the printing process the graphite powder was dispersed uniformly on the supporting polymer matrix. Graphite’s concentration in the mixture was varied between 5 and 40 wt % to find the correlation between the carbon content and conductivity. The graphite concentration, polymer matrix, and printing conditions all had an impact on the final conductivity. Due to the SLS printing technique, all the 3D printed electrodes …

Materials sciencelaser sinteringelektroditEnergy Engineering and Power Technology3D printing02 engineering and technologyConductivity010402 general chemistry01 natural scienceslaw.inventionlawHighly porousgrafiittiMaterials ChemistryElectrochemistryChemical Engineering (miscellaneous)3D-tulostusGraphiteElectrical and Electronic EngineeringComposite materialta116ta114business.industrygraphite3D printingporous electrodes021001 nanoscience & nanotechnology0104 chemical sciencesSelective laser sinteringPorous electrodeElectrodePolyamideconductivity0210 nano-technologybusinessACS Applied Energy Materials
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Morphostructural analysis of human follicular stem cells on highly porous bone hydroxyapatite scaffold

2007

In this study we investigated the in vitro behaviour, morphostructure and extracellular matrix synthesis of human dental follicular stem cells (hDFSCs) isolated from human dental bud, which resulted to be positive for mesenchymal markers (CD29, CD90, CD146 and CD166) by FACS analysis. Cells were analysed by light and electronic microscopy to evaluate their biological response either at week 1, that is before differentiation, or at weeks 3–6, when they had been cultured in osteogenic medium onto a highly porous natural scaffold material (Bio-Oss®). Microscopy analysis of primary culture cells showed they had a mesenchymal stem cell-like morphostructure, spindle shaped, similar to the cultur…

Scaffolddental fiollicle stem cells tissue engineering porous bone hydroxyapatite (Bio-Oss (R))ImmunologyDentistryBiocompatible MaterialsExtracellular matrix03 medical and health sciencesdental fiollicle0302 clinical medicineTissue engineeringHighly porousFollicular phaseHumansImmunology and AllergyCells CulturedPharmacologyDental follicleTissue EngineeringTissue Scaffoldsbusiness.industryChemistryStem CellsCell DifferentiationFibroblastsFlow CytometryIn vitroExtracellular MatrixCell biologyDurapatitePhenotypeporous bone hydroxyapatite (Bio-Oss (R))030220 oncology & carcinogenesisMicroscopy Electron ScanningStem cellbusinessPorosityTooth030215 immunology
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Highly Porous Wood Based Carbon Materials for Supercapacitors

2015

Wood based activated carbons synthesized by two-stage thermocatalytical synthesis with NaOH activator were studied and used as supercapacitor electrodes (sulphuric acid electrolyte). Porous structure and electrochemical properties of carbons vs synthesis conditions were assessed. It was found that there are correlations between carbons synthesis variables, their porosity and supercapacitors functional characteristics. At the temperature 600 o C and activator/precursor ratio 1.25 porosity decreased, however energy capacitance of supercapacitor increased calculating on elementary cell mass.

SupercapacitorMaterials scienceChemical engineeringAcid electrolyteActivator (phosphor)Highly porousElectrodeComposite materialElectrochemistryPorosityCapacitanceIOP Conference Series: Materials Science and Engineering
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A Versatile Technique to Produce Porous Polymeric Scaffolds: The Thermally Induced Phase Separation (TIPS) Method

2017

Among the various scaffold fabrication techniques, thermally induced phase separation (TIPS) is one of the most versatile methods to produce porous polymeric scaffold and it has been largely used for its capability to produce highly porous and interconnected scaffolds. The scaffold architecture can be closely controlled by varying the process parameters, including polymer type and concentration, solvent/non-solvent ratio and thermal history. TIPS technique has been widely employed, also, to produce scaffolds with a hierarchical pore structure and composite polymeric matrix/inorganic filler foams.

chemistry.chemical_classificationMaterials scienceComposite numbertechnology industry and agriculturePolymeric matrixNanotechnologyPolymerMicrobiologySolventchemistryHighly porousPolymeric scaffoldScaffold architecturePorosityArchives in Chemical Research
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Estimation of the elastic constants of highly porous cellular plastics reinforced with fibres embedded in foam struts

2015

In order to enhance the mechanical properties of polymer foams, fillers of different materials and sizes are being applied. Fibrous fillers shorter than the characteristic foam cell dimensions have the potential of efficient reinforcement, due to their high aspect ratio, without detrimentally interfering with foam structure. A theoretical model is developed for evaluation of the effect of filler on foam stiffness. The elastic response of rigid polymer foams filled with short fibres, of length commensurable with that of foam struts, is modelled by using the orientational averaging technique. Explicit expressions for components of the stiffness tensor of composite foams are derived in terms …

chemistry.chemical_classificationMaterials scienceMechanical EngineeringComposite numberStiffness02 engineering and technologyPolymer021001 nanoscience & nanotechnologyStructural elementchemistry.chemical_compound020303 mechanical engineering & transports0203 mechanical engineeringchemistryMechanics of MaterialsHighly porousMaterials ChemistryCeramics and CompositesmedicineComposite materialElasticity (economics)medicine.symptom0210 nano-technologyPolyurethaneStiffness matrixJournal of Composite Materials
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