Search results for "surface properties"

showing 10 items of 421 documents

Biochips for cell biology by combined dip-pen nanolithography and DNA-directed protein immobilization.

2013

A general methodology for patterning of multiple protein ligands with lateral dimensions below those of single cells is described. It employs dip pen nanolithography (DPN) patterning of DNA oligonucleotides which are then used as capture strands for DNA-directed immobilization (DDI) of oligonucleotide-tagged proteins. This study reports the development and optimization of PEG-based liquid ink, used as carrier for the immobilization of alkylamino-labeled DNA oligomers on chemically activated glass surfaces. The resulting DNA arrays have typical spot sizes of 4-5 μm with a pitch of 12 μm micrometer. It is demonstrated that the arrays can be further functionalized with covalent DNA-streptavidi…

Materials scienceSurface PropertiesGreen Fluorescent ProteinsOligonucleotidesLigandsBiomaterialsCell membranechemistry.chemical_compoundEpidermal growth factorDip-pen nanolithographyCell Line TumorMaterials TestingMicrochip Analytical ProceduresmedicineHumansNanotechnologyGeneral Materials ScienceBiotinylationBiochipOligonucleotide Array Sequence AnalysisEpidermal Growth FactorOligonucleotideCell MembraneProteinsNanolitographyGeneral ChemistryCell BiologyDNABiochipCell biologymedicine.anatomical_structurecell.chemistryBiotinylationMCF-7 CellsGlassproteinDNABiotechnologyProtein ligandSmall (Weinheim an der Bergstrasse, Germany)
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Biosilica electrically-insulating layers by soft lithography-assisted biomineralisation with recombinant silicatein.

2011

Materials scienceSurface PropertiesMechanical EngineeringNanotechnology02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology01 natural sciencesCathepsinsSoft lithographyRecombinant Proteins0104 chemical sciences3. Good healthlaw.inventionImmobilized ProteinsMicroscopy FluorescenceMechanics of MaterialslawMicrocontact printingRecombinant DNAGeneral Materials Science0210 nano-technologyAdvanced materials (Deerfield Beach, Fla.)
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Functional biohybrid materials based on halloysite, sepiolite and cellulose nanofibers for health applications

2019

Biohybrid materials were prepared by co-assembling the three following components: nanotubular halloysite, microfibrous sepiolite, and cellulose nanofibers dispersed in water, in order to exploit the most salient features of each individual component and to render homogeneous, flexible, yet strong films. Indeed, the incorporation of halloysite improves the mechanical performance of the resulting hybrid nanopapers and the assembly of the three components modifies the surface features concerning wetting properties compared to pristine materials, so that the main characteristics of the resulting materials become tunable with regard to certain properties. Owing to their hierarchical porosity to…

Materials scienceSurface PropertiesNanofibersNanotechnologyIbuprofenMicrobial Sensitivity Testsengineering.materialGram-Positive BacteriaHalloysiteInorganic Chemistrychemistry.chemical_compoundStructure-Activity RelationshipGram-Negative BacteriaCelluloseParticle SizePorosityCelluloseSettore CHIM/02 - Chimica FisicaDose-Response Relationship DrugSepioliteHalloysiteAnti-Bacterial AgentschemistryHomogeneousNanofiberengineeringWettingSalicylic Acid
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A new approach to assess gold nanoparticle uptake by mammalian cells: combining optical dark-field and transmission electron microscopy.

2012

Toxicological effects of nanoparticles are associated with their internalization into cells. Hence, there is a strong need for techniques revealing the interaction between particles and cells as well as quantifying the uptake at the same time. For that reason, herein optical dark-field microscopy is used in conjunction with transmission electron microscopy to investigate the uptake of gold nanoparticles into epithelial cells with respect to shape, stabilizing agent, and surface charge. The number of internalized particles is strongly dependent on the stabilizing agent, but not on the particle shape. A test of metabolic activity shows no direct correlation with the number of internalized par…

Materials scienceSurface PropertiesNanoparticleMetal NanoparticlesNanotechnology02 engineering and technology010402 general chemistry01 natural sciencesMadin Darby Canine Kidney CellsBiomaterialsExcipientsDogsMicroscopy Electron TransmissionMicroscopyAnimalsGeneral Materials ScienceSurface chargeParticle SizeEpithelial CellsGeneral Chemistry021001 nanoscience & nanotechnologyDark field microscopy0104 chemical sciencesTransmission electron microscopyColloidal goldBiophysicsParticleParticle sizeGold0210 nano-technologyBiotechnologySmall (Weinheim an der Bergstrasse, Germany)
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Self-Assembly of Amphiphilic Nanocrystals

2009

Amphiphilic hybrid materials are formed from polymer-coated semiconductor nanoparticles that simulate a surfactant-like response (see picture). The strength and density of the surface coating are the key assembling forces driving a transition from single particles to cylindrical or vesicular superstructures.

Materials scienceSurface PropertiesNanoparticleNanotechnologyGeneral ChemistryCatalysisSurface-Active AgentsSurface coatingNanocrystalQuantum DotsAmphiphileNanoparticlesSelf-assemblyHybrid materialHydrophobic and Hydrophilic InteractionsSemiconductor NanoparticlesAngewandte Chemie International Edition
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Interactions between cells and titanium surfaces.

2002

The interaction between cells and implant materials is determined by the surface structure and/or surface composition of the material. In the past years, titanium and titanium alloys have proved their superiority over other implant materials in many clinical applications. This predominant behaviour is caused by a dense passive oxide layer which forms within milliseconds in oxidizing media. Titanium dioxide layers of 100 nm thickness were produced on the surface of cp-titanium grade 2, and on an experimental alloy of high vanadium content (Ti1.5Al25V) as a harmful control. The layers were produced by thermal and anodic oxidation and by coating by means of the sol-gel process. The resulting o…

Materials scienceSurface PropertiesOxidechemistry.chemical_elementVanadiumBioengineeringSensitivity and SpecificityCell Linechemistry.chemical_compoundMiceCoated Materials BiocompatibleChlorocebus aethiopsMaterials TestingAlloysCell AdhesionAnimalsSurface layerMolecular BiologyVero CellsCytoskeletonTitaniumOsteoblastsMetallurgytechnology industry and agricultureTitanium alloyFibroblastsequipment and suppliesActinsTitanium oxidechemistryChemical engineeringTitanium dioxideLayer (electronics)Cell DivisionBiotechnologyTitaniumBiomolecular engineering
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Nanogoniometry with scanning force microscopy: a model study of CdTe thin films.

2007

In this paper scanning force microscopy is combined with simple but powerful data processing to determine quantitatively, on a sub-micrometer scale, the orientation of surface facets present on crystalline materials. A high-quality scanning force topography image is used to determine an angular histogram of the surface normal at each image point. In addition to the known method for the assignment of Miller indices to the facets appearing on the surface, a quantitative analysis is presented that allows the characterization of the relative population and morphological quality of each of these facets. Two different CdTe thin films are used as model systems to probe the capabilities of this met…

Materials scienceSurface PropertiesPopulationMolecular Conformation550 - Earth sciencesScanning capacitance microscopyMicroscopy Atomic ForceBiomaterialsOpticsMaterials TestingCadmium CompoundsNanotechnologyGeneral Materials ScienceParticle SizeThin filmeducationeducation.field_of_studyCrystallographybusiness.industryOrientation (computer vision)Resolution (electron density)Membranes ArtificialGeneral ChemistryConductive atomic force microscopyNanostructuresCharacterization (materials science)Scanning ion-conductance microscopyTelluriumbusinessBiotechnology
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Low temperature synthesis of monodisperse nanoscaled ZrO2with a large specific surface area

2012

Thermal decomposition of Zr(C(2)O(4))(2)·4H(2)O within an autoclave or in a conventional tube furnace at temperatures below 380 °C resulted in nano- and micron-sized ZrO(2), respectively. Reactions under autogenic pressure yielded monodisperse monoclinic (m) and tetragonal (t) ZrO(2) nanoparticles with an average diameter of ~8 nm and interconnected t-ZrO(2) nanoparticles with diameters of ~4 nm, depending on the synthesis temperature. Samples were characterised by X-ray diffraction (XRD), small angle X-ray scattering (SAXS), scanning electron microscopy (SEM), transmission electron microscopy (TEM) associated with energy dispersive X-ray spectroscopy (EDS), Raman microspectroscopy and phot…

Materials scienceSurface PropertiesScanning electron microscopeSmall-angle X-ray scatteringSpectrum AnalysisThermal decompositionTemperatureNanoparticleNanotechnologyChemistry Techniques SyntheticNanostructuresInorganic ChemistryChemical engineeringTransmission electron microscopySpecific surface areaThermogravimetryZirconiumParticle sizeMonoclinic crystal systemDalton Trans.
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Some morphologic changes induced by Nd:YAG laser on the noncoated enamel surface: A scanning electron microscopy study

1992

The enamel surface layer of some human teeth was treated with the low-energy Nd:YAG laser at 8 mJ pulse energy. These samples were previously etched with 0.05 M orthophosphoric acid to reduce the surface reflection. The treated samples, as well as the control samples, were widely studied by scanning electron microscopy, and, in the lased group, significant morphologic changes affecting the enamel surface were observed. Those changes reveal principally the loss of the typical surface structure of the acid-etched enamel. The hydroxyapatite prisms were not discernible, and there was a decrease in the roughness of the lased surface enamel. These laser-induced structural changes may be related t…

Materials scienceSurface PropertiesScanning electron microscopechemistry.chemical_elementDermatologySurface finishIn Vitro TechniquesNeodymiumlaw.inventionOpticsAcid Etching Dentalstomatognathic systemlawHumansSurface layerComposite materialDental EnamelEnamel paintbusiness.industryLasersfungiLaserstomatognathic diseaseschemistryvisual_artNd:YAG laserMicroscopy Electron Scanningvisual_art.visual_art_mediumSurgerysense organsElectron microscopebusinessLasers in Surgery and Medicine
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Multifunctional clickable and protein-repellent magnetic silica nanoparticles

2016

Silica nanoparticles are versatile materials whose physicochemical surface properties can be precisely adjusted. Because it is possible to combine several functionalities in a single carrier, silica-based materials are excellent candidates for biomedical applications. However, the functionality of the nanoparticles can get lost upon exposure to biological media due to uncontrolled biomolecule adsorption. Therefore, it is important to develop strategies that reduce non-specific protein-particle interactions without losing the introduced surface functionality. Herein, organosilane chemistry is employed to produce magnetic silica nanoparticles bearing differing amounts of amino and alkene func…

Materials scienceSurface PropertiesSilicon dioxideNanoparticleNanotechnology02 engineering and technology010402 general chemistry01 natural sciencesMagneticschemistry.chemical_compoundAdsorptionDynamic light scatteringAnimalsGeneral Materials Sciencechemistry.chemical_classificationBiomoleculeSerum Albumin BovineSilicon Dioxide021001 nanoscience & nanotechnologyDynamic Light ScatteringFerrosoferric Oxide0104 chemical sciencesElectrophoresischemistryCovalent bondThermogravimetryNanoparticlesPolystyrenesCattleElectrophoresis Polyacrylamide GelMuramidaseAdsorption0210 nano-technologyProtein adsorptionNanoscale
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