Search results for " transistors"

showing 10 items of 54 documents

Porphyrins and BODIPY as Building Blocks for Efficient Donor Materials in Bulk Heterojunction Solar Cells

2017

International audience; Advances in the synthesis and application of highly efficient polymers and small molecules over the last two decades have enabled the rapid advancement in the development of organic solar cells and photovoltaic technology as a promising alternative to conventional solar cells, based on silicon and other inorganic semiconducting materials. Among the different types of organic semiconducting materials, porphyrins and BODIPY-based small molecules and conjugated polymers attract high interest as efficient semiconducting organic materials for dye sensitized solar cells and bulk heterojunction organic solar cells. The highest power conversion efficiency exceeding 9% has be…

Materials scienceOrganic solar cellEnergy Engineering and Power Technologypower-conversion efficiency02 engineering and technologydonor materials010402 general chemistryporphyrins7. Clean energy01 natural sciencesPolymer solar cellbulk heterojunction solar cellsphotoinduced electron-transferchemistry.chemical_compoundBODIPYElectrical and Electronic Engineeringsmall-moleculelow-bandgap polymerbusiness.industryfield-effect transistors[CHIM.MATE]Chemical Sciences/Material chemistryHybrid solar cellpi-conjugated copolymersd-a021001 nanoscience & nanotechnologyAtomic and Molecular Physics and Optics0104 chemical sciencesElectronic Optical and Magnetic Materialsphotovoltaic propertieschemistryopen-circuit voltage[ CHIM.MATE ] Chemical Sciences/Material chemistryOptoelectronicsorganic photovoltaicsBODIPY0210 nano-technologybusiness
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Surface plasmon effects on carbon nanotube field effect transistors

2011

Herein, we experimentally demonstrate surface plasmon polariton (SPP) induced changes in the conductivity of a carbon nanotube field effect transistor (CNT FET). SPP excitation is done via Kretschmann configuration while the measured CNT FET is situated on the opposite side of the metal layer away from the laser, but within reach of the launched SPPs. We observe a shift of 0.4 V in effective gate voltage. SPP-intermediated desorption of physisorbed oxygen from the device is discussed as a likely explanation of the observed effect. This effect is visible even at low SPP intensities and within a near-infrared range. peerReviewed

Materials sciencePhysics and Astronomy (miscellaneous)transistoriNanotechnologyCarbon nanotubehiilinanoputkiplasmonicslaw.inventionlawfield effect transistorspolaritonitPlasmonta114carbon nanotubesbusiness.industryhiilinanoputketSurface plasmonNanofysiikkananoscienceSurface plasmon polaritonCarbon nanotube field-effect transistorpintaplasmonitCarbon nanotube quantum dotplasmoniOptoelectronicsField-effect transistorbusinessnanotube devicesLocalized surface plasmon
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Nanostructural depth-profile and field-effect properties of poly(alkoxyphenylene-thienylene) Langmuir-Schäfer thin-films

2008

The correlations between morphological features and field-effect properties of poly(alkoxyphenylene-thiophene) thin Langmuir–Schafer film deposited on differently terminated gate dielectric surfaces, namely bare and methyl functionalized thermal silicon dioxide (t-SiO2), have been systematically studied. The film morphology has been investigated at different film thickness by Scanning Force Microscopy. Films thicker than a few layers show comparable morphology on both dielectric surfaces while differences are seen for the ultra-thin polymer deposit in close proximity to the substrate. Such deposit is notably more heterogeneous on bare t-SiO2, while a more compact and uniform nanogranular st…

Materials scienceSiliconSilicon dioxideGate dielectricField effectchemistry.chemical_elementConducting polymersNanotechnologySubstrate (electronics)Dielectricchemistry.chemical_compoundMaterials ChemistryComposite materialThin filmConductive polymerLangmuir-Schäfer organic thin-filmsOrganic–inorganic interfaceConducting polymers; Langmuir-Schäfer organic thin-films; Organic field effect transistors; Organic-inorganic interfaceOrganic-inorganic interfaceConducting polymerLangmuir–Schäfer filmMetals and AlloysSurfaces and InterfacesSurfaces Coatings and FilmsElectronic Optical and Magnetic Materialstransistors thin films nanotechnology Langmuir-ShaeferchemistryOrganic field effect transistorsOrganic field effect transistor
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Efficiency comparison between SiC- and Si-based active neutral-point clamped converters

2015

This paper presents an efficiency comparison between silicon-carbide technology and silicon technology. In order to achieve this, the efficiency of an active neutral-point clamped converter built up with silicon carbide power-devices is compared with the efficiency of an active neutral-point clamped converter built up with silicon power-devices, under a particular operating mode and a particular selection of devices. Firstly, overall losses of both converters are estimated. Then, experimental tests are carried out to measure their overall losses and efficiency. Finally, experimental results are compared with the estimations to support the analysis. The efficiency of the SiC converter is hig…

Materials scienceSiliconchemistry.chemical_elementTransistorschemistry.chemical_compoundMOSFETSilicon carbideElectronic engineeringMetal oxide semiconductor field-effect transistorsSiC MOSFETPoint (geometry)Metal oxide semiconductorsTransistors MOSFETbusiness.industryWide-bandgap semiconductor:Enginyeria electrònica [Àrees temàtiques de la UPC]ConvertersMetall-òxid-semiconductorschemistryefficiencyEfficiency comparisonactive neutral-point clampedOptoelectronicswide band gapbusinessSiC technologymultilevel conversion
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Supramolecular Order of Solution-Processed Perylenediimide Thin Films

2011

N,N ′ -1 H ,1 H -perfl uorobutyl dicyanoperylenecarboxydiimide (PDIF-CN 2 ), a soluble and air stable n-type molecule, undergoes signifi cant reorganization upon thermal annealing after solution deposition on several substrates with different surface energies. Interestingly, this system exhibits an exceptional edge-on orientation regardless of the substrate chemistry. This preferential orientation is rationalized in terms of strong intermolecular interactions between the PDIF-CN 2 molecules. The presence of a pronounced π– π stacking is confi rmed by combining near-edge X-ray absorption fi ne structure spectroscopy (NEXAFS), dynamic scanning force microscopy (SFM) and surface energy measure…

Materials scienceSupramolecular chemistryAnalytical chemistryStackingSEMICONDUCTORSsolution processesSCALING BEHAVIORBiomaterialsACTIVE LAYERSElectrochemistryCHARGE-TRANSPORTThin filmn-Type semiconductorcharge injectionIntermolecular forcesupramolecular electronicsThin FilmCondensed Matter Physicsorganic transistorsXANESSurface energyElectronic Optical and Magnetic MaterialsChemical physicsMOBILITYGROWTHMORPHOLOGYSupramolecular electronicsAbsorption (chemistry)FIELD-EFFECT TRANSISTORSCONJUGATED POLYMERSGALLIUM-ARSENIDEAdvanced Functional Materials
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Current-Driven Organic Electrochemical Transistors for Monitoring Cell Layer Integrity with Enhanced Sensitivity

2021

In this progress report an overview is given on the use of the organic electrochemical transistor (OECT) as a biosensor for impedance sensing of cell layers. The transient OECT current can be used to detect changes in the impedance of the cell layer, as shown by Jimison et al. To circumvent the application of a high gate bias and preventing electrolysis of the electrolyte, in case of small impedance variations, an alternative measuring technique based on an OECT in a current-driven configuration is developed. The ion-sensitivity is larger than 1200 mV V-1 dec-1 at low operating voltage. It can be even further enhanced using an OECT based complementary amplifier, which consists of a p-type a…

Materials scienceTransistors ElectronicBiomedical EngineeringPharmaceutical ScienceElectrolyteBiosensing TechniquesTransistorslaw.inventionBiomaterialsElectrolytesPEDOT:PSSimpedance sensinglawcell layer integrityElectric ImpedanceElectronicPEDOT:PSSHumansElectrical impedanceorganic bioelectronicsElectrolysisbusiness.industryAmplifierTransistorcell layer integrity; impedance sensing; organic bioelectronics; organic electro-chemical transistors; PEDOT:PSS; Caco-2 Cells; Electric Impedance; Electrolytes; Humans; Biosensing Techniques; Transistors ElectronicOptoelectronicsCaco-2 Cellsbusinessorganic electro-chemical transistorsBiosensorOrganic electrochemical transistor
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Monitoring of Cell Layer Integrity with a Current-Driven Organic Electrochemical Transistor

2019

Abstract The integrity of CaCo-2 cell barriers is investigated by organic electrochemical transistors (OECTs) in a current-driven configuration. Ion transport through cellular barriers via the paracellular pathway is modulated by tight junctions between adjacent cells. Rupturing its integrity by H2O2 is monitored by the change of the output voltage in the transfer characteristics. It is demonstrated that by operating the OECT in a current-driven configuration, the sensitive and temporal resolution for monitoring the cell barrier integrity is strongly enhanced as compared to the OECT transient response measurement. As a result, current-driven OECTs are useful tools to assess dynamic and crit…

Materials scienceTransistors Electroniccell barriersBiomedical EngineeringPharmaceutical ScienceBiosensing Techniques02 engineering and technologybioelectronics010402 general chemistry01 natural scienceslaw.inventionBiomaterialslawElectrochemistryHumansTransient responseinvertersCell ShapeIon transporterBioelectronicsTight junctionbioelectronics; cell barriers; inverters; organic electrochemical transistors; toxicologybusiness.industryTransistorHydrogen Peroxide021001 nanoscience & nanotechnologyorganic electrochemical transistors0104 chemical sciencesParacellular transportOptoelectronicsCaco-2 Cells0210 nano-technologybusinesstoxicologyVoltageOrganic electrochemical transistor
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Ambipolar MoS2 Transistors by Nanoscale Tailoring of Schottky Barrier Using Oxygen Plasma Functionalization

2017

One of the main challenges to exploit molybdenum disulfide (MoS2) potentialities for the next-generation complementary metal oxide semiconductor (CMOS) technology is the realization of p-type or ambipolar field-effect transistors (FETs). Hole transport in MoS2 FETs is typically hampered by the high Schottky barrier height (SBH) for holes at source/drain contacts, due to the Fermi level pinning close to the conduction band. In this work, we show that the SBH of multilayer MoS2 surface can be tailored at nanoscale using soft O-2 plasma treatments. The morphological, chemical, and electrical modifications of MoS2 surface under different plasma conditions were investigated by several microscopi…

Materials scienceambipolar transistorsSchottky barrierDFT calculationNanotechnology02 engineering and technologyDFT calculations01 natural scienceschemistry.chemical_compoundX-ray photoelectron spectroscopy0103 physical sciencesScanning transmission electron microscopyGeneral Materials ScienceSchottky barrierMolybdenum disulfide010302 applied physicsAmbipolar diffusionElectron energy loss spectroscopyConductive atomic force microscopy021001 nanoscience & nanotechnologyconductive atomic force microscopyatomic resolution STEMchemistryambipolar transistorSurface modificationMaterials Science (all)0210 nano-technologyMoS2
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The lower rather than higher density charge carrier determines the NH 3 -sensing nature and sensitivity of ambipolar organic semiconductors

2018

International audience; Despite the extensive studies and great application potentials, the sensing nature of ambipolar organic semiconductor gas sensors still remains unclarified, unlike their inorganic counterparts. Herein, different numbers of thiophenoxy groups are introduced into the phthalocyanine periphery of bis(phthalocyaninato) rare earth semiconductors to continuously tune their HOMO and LUMO energies, resulting in the ambipolar M[Pc(SPh)(8)](2) [M = Eu (1), Ho (2)] and p-type M(Pc)[Pc(SPh)(8)] [M = Eu (3), Ho (4)]. An OFET in combination with direct I-V measurements over the devices from the self-assembled nanostructures of 1-4 revealed the original electron and hole densities (…

Materials sciencematerials designoxidizing no2Analytical chemistry02 engineering and technologyElectronthin-film transistors010402 general chemistry01 natural scienceslangmuir-blodgett-filmsgas sensorchemistry.chemical_compoundMaterials Chemistry[CHIM]Chemical SciencesGeneral Materials Sciencemolecular materialsHOMO/LUMOcopper-phthalocyanineOrganic field-effect transistorAmbipolar diffusionbusiness.industryfield-effect transistorschemical sensors021001 nanoscience & nanotechnology0104 chemical sciencesOrganic semiconductorSemiconductorchemistryPhthalocyanineCharge carrierdecker complexes0210 nano-technologybusiness
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Langevin Approach to understand the Noise in Microwave Transistors

2004

A noise analysis procedure for microwave devices based on Langevin approach is presented. The device is represented by its equivalent circuit with the internal noise sources included as stochastic processes. Fromthe circuit network analysis a stochastic integral equation for the output voltage is derived and fromits power spectrumthe noise figure as a function of the operating frequency is obtained. The theoretical results have been compared with experimental data obtained by the characterization of an HEMT transistor series (NE20283A, by NEC) from6 to 18 GHz at a low noise bias point. The reported procedure exhibits good accuracy, within the typical uncertainty range of any experimental de…

Microwave Transistors
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