Search results for "FABRICATION"

showing 10 items of 460 documents

Effects of the Buffer Layers on the Performances of (Al,Ga)N Ultraviolet Photodetectors

2004

The fabrication of (Al,Ga)N-based metal–semiconductor–metal (MSM) photovoltaic detectors requires the growth of high-quality (Al,Ga)N films. Inserting a low-temperature deposited buffer layer enables the growth of an epitaxial layer with a reduced density of defects. Two structures using GaN and AlN buffer layers have been deposited by low-pressure metalorganic chemical vapor deposition and used to fabricate MSM interdigitated detectors. The devices have been characterized to investigate the effects of the buffer layers on the detector performances.

Materials scienceFabricationbusiness.industryWide-bandgap semiconductorPhotodetectorsGeneral Physics and AstronomyPhotodetectorultraviolet photodetectorsChemical vapor depositionGallium nitrideEpitaxymedicine.disease_causeSettore ING-INF/01 - ElettronicaBuffer (optical fiber)medicineOptoelectronicsbusinessLayer (electronics)Ultraviolet
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Well-aligned hydrothermally synthesized zinc oxide nanorods on p-GaN without a seed layer

2015

Zinc oxide nanorods have great potential for the realization of high efficiency heterostructure LEDs based on pdoped gallium nitride. In order to obtain a good confinement of the light, a well-aligned nanorod waveguiding structure is desirable. This paper reports on the fabrication of vertical zinc oxide nanorods using a solution-based growth process that does not require a seed layer. The nanorods obtained follow the crystalline growth direction of the GaN layer along the c-axis. Various results with different reagent concentrations are reported.

Materials scienceFabricationbusiness.industrychemistry.chemical_elementGallium nitrideHeterojunctionZincSettore ING-INF/01 - ElettronicaZinc oxide nanorods Nanofabrication Characterization p-GaN hydrothermal growth seed layerlaw.inventionchemistry.chemical_compoundNanolithographychemistrylawOptoelectronicsNanorodbusinessLayer (electronics)Light-emitting diode
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Electroplated bismuth absorbers for planar NTD-Ge sensor arrays applied to hard x-ray detection in astrophysics

2018

Single sensors or small arrays of manually assembled neutron transmutation doped germanium (NTD-Ge) based microcalorimeters have been widely used as high energy-resolution detectors from infrared to hard X-rays. Several planar technological processes were developed in the last years aimed at the fabrication of NTD-Ge arrays, specifically designed to produce soft X-ray detectors. One of these processes consists in the fabrication of the absorbers. In order to absorb efficiently hard X-ray photons, the absorber has to be properly designed and a suitable material has to be employed. Bismuth offers interesting properties in terms of absorbing capability, of low heat capacity (needed to obtain h…

Materials scienceFabricationelectroplatingNTD-GeX-ray detectorchemistry.chemical_elementGermaniumCondensed Matter Physic01 natural sciencesthick film010305 fluids & plasmasBismuthX-rayPlanarSettore FIS/05 - Astronomia E AstrofisicaMicrocalorimeter0103 physical sciencesbismuthElectrical and Electronic Engineering010306 general physicsElectroplatingbusiness.industryElectronic Optical and Magnetic MaterialDopingDetectorComputer Science Applications1707 Computer Vision and Pattern RecognitionApplied MathematicchemistryOptoelectronicsbusiness
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Printing ZnO Inks: From Principles to Devices

2020

Solution-based printing approaches permit digital designs to be converted into physical objects by depositing materials in a layer-by-layer additive fashion from microscale to nanoscale resolution. The extraordinary adaptability of this technology to different inks and substrates has received substantial interest in the recent literature. In such a context, this review specifically focuses on the realization of inks for the deposition of ZnO, a well-known wide bandgap semiconductor inorganic material showing an impressive number of applications in electronic, optoelectronic, and piezoelectric devices. Herein, we present an updated review of the latest advancements on the ink formulations an…

Materials scienceFabricationthin filmGeneral Chemical Engineeringprinted electronicContext (language use)Nanotechnology02 engineering and technology010402 general chemistrysensors01 natural sciencescrystalInorganic Chemistrysensornanocompositescrystalslcsh:QD901-999General Materials ScienceThin filmink transportinkjet printingNanocompositeSettore FIS/03InkwellWide-bandgap semiconductor021001 nanoscience & nanotechnologyCondensed Matter Physicsnanorod0104 chemical sciencesthin filmsPrinted electronicsZnONanorodprinted electronicslcsh:Crystallography0210 nano-technologynanorods
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Fabrication and Characterisation of Perovskite Thin Films for Photovoltaic Application

2018

This paper presents an alternative way to obtain perovskite thin films for photovoltaic application. This technique results more competitive, scalable, low-cost, reproducible and is different from other most common methods of fabrication.

Materials scienceFabricationthin filmRenewable Energy Sustainability and the EnvironmentPhotovoltaic systemPerovskite solar cellEnergy Engineering and Power TechnologyNanotechnologyComputer Science Applications1707 Computer Vision and Pattern RecognitionPerovskite solar cellIndustrial and Manufacturing EngineeringComputer Networks and CommunicationSettore ING-IND/23 - Chimica Fisica ApplicataArtificial Intelligenceperovskite thin films electrodeposition lead oxide solar cellThin filmInstrumentationPerovskite (structure)electrochemical deposition
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Application of electrochemical impedance for characterising arrays of Bi2S3 nanowires

2015

Abstract Electrochemical Impedance Spectroscopy (EIS) was used to characterise the electrical properties of bismuth sulphide (Bi2S3) nanowires (NWs) templated within anodic aluminium oxide (AAO) membranes. A specially engineered cell, with a nominal electrolyte volume of 0.1–0.2 ml, was used to hold and measure the electrochemical impedance of the fragile NW/AAO samples. An equivalent circuit model was developed to determine the filling density of nanowires within the porous templates. The EIS method can be utilised to probe the nanowire filling density in porous membranes over large sample areas, which is often unobtainable using electron microscopy and conductive atomic force microscopy t…

Materials scienceGeneral Chemical EngineeringNanowirechemistry.chemical_elementNanotechnologyGrowthElectrical characterizationBismuthchemistry.chemical_compoundElectrochemical Impedance SpectroscopyFabricationElectrodepositionElectrochemistryPorosityElectrical impedanceBismuth sulphideMetalTemplateConductive atomic force microscopyOxide nanowireDielectric spectroscopyNanostructuresNanowireMembranechemistryAluminium oxideAnodic aluminium oxide
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An Inverse Thermogelling Bioink Based on an ABA-Type Poly(2-oxazoline) Amphiphile

2021

Hydrogels are key components in several biomedical research areas such as drug delivery, tissue engineering, and biofabrication. Here, a novel ABA-type triblock copolymer comprising poly(2-methyl-2-oxazoline) as the hydrophilic A blocks and poly(2-phenethyl-2-oxazoline) as the aromatic and hydrophobic B block is introduced. Above the critical micelle concentration, the polymer self-assembles into small spherical polymer micelles with a hydrodynamic radius of approx 8-8.5 nm. Interestingly, this specific combination of hydrophilic and hydrophobic aromatic moieties leads to rapid thermoresponsive inverse gelation at polymer concentrations above a critical gelation concentration (20 wt %) into…

Materials scienceHydrodynamic radiusPolymers and Plastics0206 medical engineering116 Chemical sciencesBioengineering02 engineering and technology010402 general chemistry01 natural sciencesMicelleBiomaterialsMiceAmphiphileMaterials ChemistryCopolymerAnimalsOxazoleschemistry.chemical_classificationTissue EngineeringBioprintingHydrogelsPolymer021001 nanoscience & nanotechnology020601 biomedical engineering0104 chemical sciencesChemical engineeringchemistryCritical micelle concentrationPrinting Three-DimensionalSelf-healing hydrogels0210 nano-technologyBiofabrication
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Processing conditions, microstructure and mechanical properties of hetero-nanostructured ODS FeAl alloys produced by spark plasma sintering

2013

International audience; Spark plasma sintering (SPS) has been used to sinter a milled oxide dispersion-strengthened (ODS) FeAl powder in order to prepare dense nanostructured parts. The effect of processing conditions including sintering temperature, holding time and degassing treatments on the microstructure and mechanical properties of the as-sintered materials was investigated. A hetero-nanostructure that contains nano, ultrafine and micrometric grains was confirmed to be developed whatever the processing window, due to the large temperature difference generated during the SPS process itself. The grain size distribution can be tailored by selecting a combination of sintering temperature …

Materials scienceMILLED POWDERDUCTILITYOxideFABRICATIONSpark plasma sinteringSintering02 engineering and technology01 natural scienceschemistry.chemical_compound0103 physical sciencesNano-General Materials ScienceCONSOLIDATION010302 applied physicsCOATINGSNANOCRYSTALLINEIRON ALUMINIDEMechanical EngineeringMetallurgyFEALHIGH-STRENGTH021001 nanoscience & nanotechnologyCondensed Matter PhysicsMicrostructureGrain sizeNanocrystalline materialchemistryMechanics of MaterialsX-RAY0210 nano-technologyULTRAFINE-GRAINED METALS
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White Etching Crack Root Cause Investigations

2014

White etching crack (WEC) failure is distinct to classical fatigue and driven by the composition of lubricants under special loading conditions; for example, slippage and electricity. The white etching area (WEA) within WEC contains carbon supersaturated ferrite (bcc-iron) and carbides, with a size of a few nanometers. This article presents investigations supporting the hypothesis that WEC processes start within a failure-free period by successive accumulation of a structural distortion. This can be measured by acoustic emission. Failure statistics show a steep ascent in the Weibull diagram (s values beyond 1) leading to the assumption that WEC processes start unsuspicious, as one would see…

Materials scienceMechanical EngineeringMetallurgychemistry.chemical_elementSurfaces and InterfacesSurfaces Coatings and FilmsCarbideAcoustic emissionchemistryMechanics of MaterialsEtching (microfabrication)DistortionFerrite (iron)SlippageComposite materialCarbonWeibull distributionTribology Transactions
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Porous inorganic–organic hybrid material by oxygen plasma treatment

2011

In this paper, we present the pore formation on inorganic–organic hybrid material, ORMOCER©, by reactive ion etching. ORMOCERs are composed of inorganic backbone where organic side groups are attached by cross-linking. Etching of ORMOCER in oxygen plasma generates porous materials with different pore sizes depending on the etching parameters. In addition to planar films, this pore formation process is applicable to micro and nanostructures. Characteristics of porous materials are evaluated by contact angle measurement, scanning electron microscopy, Fourier transform infrared-attenuated total reflectance spectroscopy, time-of-flight elastic recoil detection analysis and Rutherford backscatte…

Materials scienceMechanical Engineeringtechnology industry and agricultureAnalytical chemistryRutherford backscattering spectrometryElectronic Optical and Magnetic MaterialsChemical engineeringMechanics of MaterialsSputteringEtching (microfabrication)Electrical and Electronic EngineeringThin filmReactive-ion etchingPorous mediumHybrid materialPlasma processingJournal of Micromechanics and Microengineering
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