Search results for "Full Research Paper"

showing 10 items of 80 documents

Mechanical properties of MDCK II cells exposed to gold nanorods

2015

Background: The impact of gold nanoparticles on cell viability has been extensively studied in the past. Size, shape and surface functionalization including opsonization of gold particles ranging from a few nanometers to hundreds of nanometers are among the most crucial parameters that have been focussed on. Cytoxicity of nanomaterial has been assessed by common cytotoxicity assays targeting enzymatic activity such as LDH, MTT and ECIS. So far, however, less attention has been paid to the mechanical parameters of cells exposed to gold particles, which is an important reporter on the cellular response to external stimuli.Results: Mechanical properties of confluent MDCK II cells exposed to go…

Materials scienceGeneral Physics and AstronomyNanotechnologylcsh:Chemical technologylcsh:TechnologyFull Research Papermembrane tensionNanomaterialsMicroscopyNanotechnologylcsh:TP1-1185General Materials ScienceElectrical and Electronic Engineeringlcsh:Scienceatomic force microscopylcsh:TCTABQuartz crystal microbalanceDynamic mechanical analysisgold nanorodslcsh:QC1-999NanoscienceMembraneColloidal goldQCMMDCK II cellsBiophysicsSurface modificationlcsh:QNanorodlcsh:PhysicsBeilstein Journal of Nanotechnology
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Study of silica-based intrinsically emitting nanoparticles produced by an excimer laser

2019

International audience; We report an experimental study demonstrating the feasibility to produce both pure and Ge-doped silica nanoparticles (size ranging from tens up to hundreds of nanometers) using nanosecond pulsed KrF laser ablation of bulk glass. In particular, pure silica nanoparticles were produced using a laser pulse energy of 400 mJ on pure silica, whereas Ge-doped nanoparticles were obtained using 33 and 165 mJ per pulse on germanosilicate glass. The difference in the required energy is attributed to the Ge doping, which modifies the optical properties of the silica by facilitating energy absorption processes such as multiphoton absorption or by introducing absorbing point defect…

Materials scienceScanning electron microscopemedicine.medical_treatmentAnalytical chemistryPhysics::OpticsGeneral Physics and AstronomyNanoparticleCathodoluminescenceCondensed Matter02 engineering and technologylcsh:Chemical technologylcsh:Technology01 natural sciencesFull Research PaperNanomaterials010309 opticsoptical materials0103 physical sciencesScanning transmission electron microscopymedicineNanotechnologylcsh:TP1-1185General Materials ScienceDetectors and Experimental TechniquesElectrical and Electronic Engineeringlcsh:Sciencenanomaterials[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics]Laser ablationExcimer laserlcsh:TGe-dopedSilica021001 nanoscience & nanotechnologyNanomateriallcsh:QC1-999Laser ablationAmorphous solidNanoscienceOptical materiallcsh:Q0210 nano-technologylcsh:Physics
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Structural, Thermoanalytical and Molecular Modeling Studies on N-(3-hydroxypropyl) 3a,12a-Dihydroxy-5b-cholan-24-amide and Its Monohydrates

2007

The synthetic method for preparing N-(3-hydroxypropyl) 3 alpha,12 alpha-dihydroxy-5 beta-cholan-24-amide can lead to formation of at least three different crystal forms - an anhydrous compound and two monohydrates. The structural and thermal properties of these forms have been characterized by 13C-CP/MAS-NMR and IR spectroscopy, thermo- gravimetry, differential scanning calorimetry and by powder and single crystal x-ray crystallography. In addition, theoretical 13C-NMR chemical shift calculations were also performed for the anhydrous compound and for the first monohydrate, starting from single crystal structures and the structures of these species have now been verified. The first monohydra…

Models MolecularMagnetic Resonance Spectroscopysolid state structure.termoanalyysiPharmaceutical ScienceInfrared spectroscopy13C-CP/MAS-NMR spectroscopy13C-CP/MAS-NMR spektroskopiaFull Research PaperAnalytical ChemistryCrystallcsh:QD241-441Differential scanning calorimetrylcsh:Organic chemistryX-Ray DiffractionDrug Discoverykiinteän tilan rakenneSolid state structurePhysical and Theoretical ChemistrycrystallographyCarbon Isotopeskristallografiathermal Bile acidsCalorimetry Differential ScanningChemistryHydrogen bondOrganic ChemistryTemperatureWaterHydrogen BondingkidetiedeAmidesBile acidsCrystallographysappihapotChemistry (miscellaneous)X-ray crystallographyThermogravimetryAnhydrousCholanesMolecular MedicineOrthorhombic crystal systemSingle crystalthermal analysis
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Electroburning of few-layer graphene flakes, epitaxial graphene, and turbostratic graphene discs in air and under vacuum

2015

Graphene-based electrodes are very promising for molecular electronics and spintronics. Here we report a systematic characterization of the electroburning (EB) process, leading to the formation of nanometer-spaced gaps, on different types of few-layer graphene (namely mechanically exfoliated graphene on SiO2, graphene epitaxially grown on the C-face of SiC and turbostratic graphene discs deposited on SiO2) under air and vacuum conditions. The EB process is found to depend on both the graphene type and on the ambient conditions. For the mechanically exfoliated graphene, performing EB under vacuum leads to a higher yield of nanometer-gap formation than working in air. Conversely, for graphene…

Molecular spintronicsmolecular spintronicsMaterials sciencemolecular electronicsMolecular electronicsGeneral Physics and AstronomyNanotechnologylcsh:Chemical technologyEpitaxyGraphene based electrodeslcsh:TechnologyFull Research PaperGraphene; Graphene based electrodes; Molecular electronics; Molecular spintronics; Materials Science (all); Electrical and Electronic Engineering; Physics and Astronomy (all)law.inventionPhysics and Astronomy (all)lawNanotechnologylcsh:TP1-1185ddc:530General Materials ScienceElectrical and Electronic Engineeringlcsh:ScienceComputingMilieux_MISCELLANEOUSGraphene oxide paper[PHYS]Physics [physics]lcsh:TGraphenegraphene based electrodesPhysicsGraphene foamMolecular electronicslcsh:QC1-999NanoscienceElectrodelcsh:QMaterials Science (all)GrapheneBilayer graphenelcsh:PhysicsGraphene nanoribbons
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Easy access to heterobimetallic complexes for medical imaging applications via microwave-enhanced cycloaddition

2015

The Cu(I)-catalysed Huisgen cycloaddition, known as “click” reaction, has been applied to the synthesis of a range of triazole-linked porphyrin/corrole to DOTA/NOTA derivatives. Microwave irradiation significantly accelerates the reaction. The synthesis of heterobimetallic complexes was easily achieved in up to 60% isolated yield. Heterobimetallic complexes were easily prepared as potential MRI/PET (SPECT) bimodal contrast agents incorporating one metal (Mn, Gd) for the enhancement of contrast for MRI applications and one “cold” metal (Cu, Ga, In) for future radionuclear imaging applications. Preliminary relaxivity measurements showed that the reported complexes are promising contrast agent…

NOTAmicrowavePhotochemistryFull Research Paperlcsh:QD241-441Metalchemistry.chemical_compoundlcsh:Organic chemistrycorroleDOTACorrolelcsh:ScienceOrganic ChemistryPorphyrinCombinatorial chemistryCycloadditionChemistryDOTAchemistryYield (chemistry)visual_artclick chemistryClick chemistryvisual_art.visual_art_mediumlcsh:QporphyrinMicrowaveBeilstein Journal of Organic Chemistry
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Impact of contact resistance on the electrical properties of MoS

2016

Molybdenum disulphide (MoS2) is currently regarded as a promising material for the next generation of electronic and optoelectronic devices. However, several issues need to be addressed to fully exploit its potential for field effect transistor (FET) applications. In this context, the contact resistance, R C, associated with the Schottky barrier between source/drain metals and MoS2 currently represents one of the main limiting factors for suitable device performance. Furthermore, to gain a deeper understanding of MoS2 FETs under practical operating conditions, it is necessary to investigate the temperature dependence of the main electrical parameters, such as the field effect mobility (μ) a…

Nanosciencecontact resistanceNanotechnologyMoS2temperature dependenceFull Research Papermobilitythreshold voltageBeilstein journal of nanotechnology
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Colorimetric gas detection by the varying thickness of a thin film of ultrasmall PTSA-coated TiO

2016

Colorimetric gas sensing is demonstrated by thin films based on ultrasmall TiO2 nanoparticles (NPs) on Si substrates. The NPs are bound into the film by p-toluenesulfonic acid (PTSA) and the film is made to absorb volatile organic compounds (VOCs). Since the color of the sensing element depends on the interference of reflected light from the surface of the film and from the film/silicon substrate interface, colorimetric detection is possible by the varying thickness of the NP-based film. Indeed, VOC absorption causes significant swelling of the film. Thus, the optical path length is increased, interference wavelengths are shifted and the refractive index of the film is decreased. This cause…

Nanosciencep-toluenesulfonic acid (PTSA)NanotechnologyTiO2 nanoparticlesFull Research Papercolorimetric gas sensingBeilstein journal of nanotechnology
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3D superconducting hollow nanowires with tailored diameters grown by focused He+ beam direct writing

2020

Currently, the patterning of innovative three-dimensional (3D) nano-objects is required for the development of future advanced electronic components. Helium ion microscopy in combination with a precursor gas can be used for direct writing of three-dimensional nanostructures with a precise control of their geometry, and a significantly higher aspect ratio than other additive manufacturing technologies. We report here on the deposition of 3D hollow tungsten carbide nanowires with tailored diameters by tuning two key growth parameters, namely current and dose of the ion beam. Our results show the control of geometry in 3D hollow nanowires, with outer and inner diameters ranging from 36 to 142 …

NanostructureMaterials scienceIon beamelectron tomographyNanowireGeneral Physics and Astronomy02 engineering and technologyfocused ion beam induced deposition (FIBID)lcsh:Chemical technologylcsh:Technology01 natural sciencesFull Research Paperchemistry.chemical_compoundTungsten carbide0103 physical sciencesNanotechnologylcsh:TP1-1185tungsten carbide (WC)General Materials Sciencehelium ion microscopeElectrical and Electronic Engineeringlcsh:Science010302 applied physicslcsh:Tbusiness.industrynano-superconductorsmagneto-transport measurements021001 nanoscience & nanotechnologyMicrostructureAspect ratio (image)lcsh:QC1-999NanosciencechemistryElectron tomographyTransmission electron microscopy[PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci]Optoelectronicslcsh:Q0210 nano-technologybusinesslcsh:Physics
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A Novel Gas Sensor Transducer Based on Phthalocyanine Heterojunction Devices

2007

Abstract: Experimental data concerning the changes in the current-voltage (I-V) perfor-mances of a molecular material-based heterojunction consisting of hexadecafluorinated nickel phthalocyanine (Ni(F 16 Pc)) and nickel phthalocyanine (NiPc), (Au|Ni(F 16 Pc)|NiPc|Al) are introduced as an unprecedented principle of transduction for gas sensing performances. The respective n - and p -type doped-insulator behaviors of the respective materials are supported, owing to the observed changes in surface potential (using the Kelvin probe method) after submission to electron donor (ammonia) and electron acceptor gases (ozone). On the other hand, the bilayer device exhibits strong variations in the bui…

NanotechnologyElectron donorlcsh:Chemical technologyBiochemistryFull Research PaperAnalytical Chemistrygas sensorchemistry.chemical_compoundlcsh:TP1-1185Electrical and Electronic Engineeringorganic heterojunctionmolecular materialsInstrumentationmolecular materials; phthalocyanine; organic heterojunction; gas sensor; transduction.chemistry.chemical_classificationKelvin probe force microscopeResistive touchscreenbusiness.industryBilayerDopingHeterojunctionElectron acceptortransductionAtomic and Molecular Physics and OpticsphthalocyaninechemistryPhthalocyanineOptoelectronicstransduction.businessSensors (Basel, Switzerland)
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Tandem cross enyne metathesis (CEYM)–intramolecular Diels–Alder reaction (IMDAR). An easy entry to linear bicyclic scaffolds

2015

A new tandem cross enyne metathesis (CEYM)–intramolecular Diels–Alder reaction (IMDAR) has been carried out. It involves conjugated ketones, esters or amides bearing a remote olefin and aromatic alkynes as the starting materials. The overall process enables the preparation of a small family of linear bicyclic scaffolds in a very simple manner with moderate to good levels of diastereoselectivity. This methodology constitutes one of the few examples that employ olefins differently than ethylene in tandem CEYM–IMDAR protocols.

Olefin fiberBicyclic moleculeTandemChemistryOrganic ChemistryConjugated systemEnyne metathesisCombinatorial chemistryFull Research Paperlcsh:QD241-441Chemistrylcsh:Organic chemistryCascade reactionDiels–Alder reactionIntramolecular forcebicyclic frameworkscross enyne metathesisOrganic chemistrylcsh:Qtandem reactionlcsh:ScienceDiels-Alder reactionDiels–Alder reactionBeilstein Journal of Organic Chemistry
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