Search results for "graphite"

showing 10 items of 229 documents

A single-chamber membraneless microbial fuel cell exposed to air using Shewanella putrefaciens

2016

Abstract Microbial Fuel Cells (MFCs) are bio-electrochemical devices which convert the chemical energy content of organic fuels into electricity, thanks to the ability of anode respiring bacteria to give electrons to the anode. This result is usually achieved under anaerobic conditions, obtained with a sealed anode chamber. Despite this, Shewanella oneidensis has been recognized by many authors to obtain the same results in presence of air. Furthermore, another member of the Pseudomonaceae family, Shewanella putrefaciens, has also shown the capability to catalyze the cathodic oxygen reduction. In this work the capability of S. putrefaciens to work under both anaerobic and micro-aerobic cond…

Microbial fuel cellMicrobial fuel cellHorizontal cathodeGeneral Chemical EngineeringShewanella putrefaciens02 engineering and technology010501 environmental sciencesShewanella putrefaciens01 natural sciencesCompact graphite cathodeAnalytical ChemistryCathodic protectionlaw.inventionlawElectrochemistryMembraneless MFCGraphiteShewanella oneidensis0105 earth and related environmental sciencesbiologyChemistrySettore ING-IND/27 - Chimica Industriale E Tecnologica021001 nanoscience & nanotechnologybiology.organism_classificationCathodeAnodeChemical energyChemical engineering0210 nano-technologyBiocathodeJournal of Electroanalytical Chemistry
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Origin of Ubiquitous Stripes at the Graphite–Water Interface

2020

The investigation of solid-liquid interfaces is pivotal for understanding processes like wetting, corrosion, and mineral dissolution and growth. The graphite-water interface constitutes a prime example for studying the water structure at a seemingly hydrophobic surface. Surprisingly, in a large number of atomic force microscopy (AFM) experiments, well-ordered stripes have been observed at the graphite-water interface. Although many groups have reported on the observation of stripes at this interface, fundamental properties and, in particular, the origin of the stripes are still under debate. Proposed origins include contamination, interplanar stacking of graphene layers, formation of methan…

MineralMaterials scienceInterface (Java)Metallurgy02 engineering and technologySurfaces and Interfaces010402 general chemistry021001 nanoscience & nanotechnology540Condensed Matter Physics01 natural sciences0104 chemical sciencesCorrosionElectrochemistryGeneral Materials ScienceGraphiteWetting0210 nano-technologyDissolutionSpectroscopy
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Spectroscopic 2D-tomography: Residual pressure and strain around mineral inclusions in diamonds

2004

We have studied high-pressure inclusions (Ca-silicates, coesite, graphite) in three large diamonds, one from the Kankan district, Guinea, and the other two from the Panda kimberlite, Ekati diamond mines, Canada. Using the in situ point-by-point mapping technique with a confocal Raman system, the mineralogy of the inclusions, as well as their area distribution pattern ( e.g. , of different Ca-silicate phases) and their order-disorder distribution pattern (shown for graphite/disordered carbon), were determined. Raman mapping of the host diamonds yielded 2D-tomographic pressure and strain distribution patterns and provided information on the residual pressure of the inclusions (∼ 2.3 GPa for a…

MineralMineralogychemistry.chemical_elementDiamondengineering.materialsymbols.namesakechemistryGeochemistry and PetrologyCoesiteengineeringsymbolsGraphiteInclusion (mineral)Raman spectroscopyCarbonKimberliteGeologyEuropean Journal of Mineralogy
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A New Heterogeneous Catalyst Obtained via Supramolecular Decoration of Graphene with a Pd2+ Azamacrocyclic Complex

2019

A new G-(H2L)-Pd heterogeneous catalyst has been prepared via a self-assembly process consisting in the spontaneous adsorption, in water at room temperature, of a macrocyclic H2L ligand on graphene (G) (G + H2L = G-(H2L)), followed by decoration of the macrocycle with Pd2+ ions (G-(H2L) + Pd2+ = G-(H2L)-Pd) under the same mild conditions. This supramolecular approach is a sustainable (green) procedure that preserves the special characteristics of graphene and furnishes an efficient catalyst for the Cu-free Sonogashira cross coupling reaction between iodobenzene and phenylacetylene. Indeed, G-(H2L)-Pd shows an excellent conversion (90%) of reactants into diphenylacetylene under mild conditio…

Models MolecularChemical PhenomenaIodobenzeneMolecular ConformationPharmaceutical ScienceSonogashira couplingLigands010402 general chemistryHeterogeneous catalysiscross coupling01 natural sciencesArticleCoupling reactionAnalytical Chemistrylaw.inventionCatalysislcsh:QD241-441chemistry.chemical_compoundlcsh:Organic chemistryCoordination ComplexeslawDrug DiscoveryPolymer chemistryPhysical and Theoretical ChemistryDiphenylacetyleneMolecular Structurecatalysis010405 organic chemistryGrapheneSpectrum AnalysisOrganic ChemistrySonogashirapalladium catalystHydrogen-Ion Concentrationsupramolecular interactions0104 chemical sciencesSolutionsazamacrocycleschemistryPhenylacetyleneChemistry (miscellaneous)surface adsorptionMolecular MedicineGraphitecatalysis palladium catalyst; Sonogashira graphenePalladiumMolecules
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Dynamic and electronic transport properties of DNA translocation through graphene nanopores

2013

Graphene layers have been targeted in the last years as excellent host materials for sensing a remarkable variety of gases and molecules. Such sensing abilities can also benefit other important scientific fields such as medicine and biology. This has automatically led scientists to probe graphene as a potential platform for sequencing DNA strands. In this work, we use robust numerical tools to model the dynamic and electronic properties of molecular sensor devices composed of a graphene nanopore through which DNA molecules are driven by external electric fields. We performed molecular dynamic simulations to determine the relation between the intensity of the electric field and the transloca…

Models MolecularMaterials scienceBioengineeringNanotechnologyMolecular Dynamics Simulationlaw.inventionElectron Transportsymbols.namesakeMolecular dynamicsNanoporeslawElectric fieldGeneral Materials Scienceta114GrapheneMechanical EngineeringFermi levelMolecular sensorMolecular electronicsGeneral ChemistryDNACondensed Matter PhysicsNanoporesymbolsGraphiteBiosensorNano Letters
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Single layers of a multifunctional laminar Cu(I,II) coordination polymer.

2010

A multifunctional bidimensional mixed-valence copper coordination polymer [Cu2Br(IN)2]n (IN = isonicotinato) has been characterized in crystal phase and isolated on graphite surface as single sheets.

Models MolecularMaterials scienceCoordination polymerPolymersSurface Propertieschemistry.chemical_elementCrystallography X-RayCatalysisCrystalchemistry.chemical_compoundPhase (matter)Polymer chemistryMaterials ChemistryOrganometallic CompoundsGraphiteGroup 2 organometallic chemistrychemistry.chemical_classificationMetals and AlloysLaminar flowGeneral ChemistryPolymerCopperSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsCrystallographychemistryCeramics and CompositesGraphiteIsonicotinic AcidsCopperChemical communications (Cambridge, England)
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Double-Network-Structured Graphene Oxide-Containing Nanogels as Photothermal Agents for the Treatment of Colorectal Cancer.

2017

Here, we reported the production of hyaluronic acid/polyaspartamide-based double-network nanogels for the potential treatment of colorectal carcinoma. Graphene oxide, thanks to the huge aromatic surface area, allows to easily load high amount of irinotecan (33.0% w/w) and confers to the system hyperthermic properties when irradiated with a near-infrared (NIR) laser beam. We demonstrate that the release of antitumor drug is influenced both by the pH of the external medium and the NIR irradiation process. In vitro biological studies, conducted on human colon cancer cells (HCT 116), revealed that nanogels are uptaken by the cancer cells and, in the presence of the antitumor drug, can produce a…

Models MolecularPolymers and PlasticsColorectal cancerInfrared RaysProtein ConformationNanogelsBioengineeringNanotechnologyAntineoplastic Agents02 engineering and technology010402 general chemistry01 natural scienceslaw.inventionPolyethylene GlycolsBiomaterialschemistry.chemical_compoundgraphene oxide hydrogel nenogel cancer therapylawHyaluronic acidMaterials ChemistrymedicineCytotoxic T cellHumansPolyethyleneimineHyaluronic AcidGrapheneChemistryOxidesPhotothermal therapy021001 nanoscience & nanotechnologymedicine.diseaseHCT116 CellsIn vitro0104 chemical sciencesIrinotecanPhotochemotherapyCancer cellCancer researchGraphite0210 nano-technologyColorectal Neoplasmsmedicine.drugBiomacromolecules
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Performances and morphology of polyamide/carbonaceous structures based fibers

2014

In this work the influence of carbonaceous particles with different particle sizes and shapes on the morphology and mechanical performances of polyamide (PA) based fibers was investigated. Graphene nanoplatelets (GNP) are compared with spherical and rod-like carbon fillers such as carbon black (CB) and multiwall carbon nanotubes (MWCNT). The different morphologies of the particles control their dispersion and their alignment in PA fibers upon elongational flow action and play a key role in structure-property relationships.

Morphology (linguistics)Materials sciencechemistry.chemical_elementCarbon nanotubeCarbon blacklaw.inventionExfoliated graphite nano-plateletschemistrylawPolyamidemorphologyParticlemechanical propertieComposite materialpolyamidesDispersion (chemistry)carbonaceous particleCarbon
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2015

AbstractWhile understanding the properties of materials under stress is fundamentally important, designing experiments to probe the effects of large tensile stress is difficult. Here tensile stress is created in thin films of potassium (up to 4 atomic layers) by epitaxial growth on a rigid support, graphite. We find that this “simple” metal shows a long-range, periodic “herringbone” reconstruction, observed in 2- and 3- (but not 1- and 4-) layer films by low-temperature scanning tunneling microscopy (STM). Such a pattern has never been observed in a simple metal. Density functional theory (DFT)simulations indicate that the reconstruction consists of self-aligned stripes of enhanced atom den…

MultidisciplinaryMaterials scienceEpitaxyBioinformaticslaw.inventionStress (mechanics)lawAtomDensity functional theoryGraphiteThin filmScanning tunneling microscopeComposite materialLayer (electronics)Scientific Reports
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Graphene based metal and metal oxide nanocomposites: synthesis, properties and their applications

2015

Graphene, an atomically thin two-dimensional carbonaceous material, has attracted tremendous attention in the scientific community, due to its exceptional electronic, electrical, and mechanical properties. Indeed, with the recent explosion of methods for a large-scale synthesis of graphene, the number of publications related to graphene and other graphene based materials has increased exponentially. Particularly the development of easy preparation methods for graphene like materials, such as highly reduced graphene oxide (HRG) via reduction of graphite oxide (GO), offers a wide range of possibilities for the preparation of graphene based inorganic nanocomposites by the incorporation of vari…

NanocompositeMaterials scienceRenewable Energy Sustainability and the EnvironmentGrapheneOxideNanotechnologyGraphite oxideGeneral Chemistrylaw.inventionNanomaterialsMetalPreparation methodchemistry.chemical_compoundchemistrylawvisual_artvisual_art.visual_art_mediumGeneral Materials ScienceElectronicsJournal of Materials Chemistry A
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