Search results for "SIO2 SURFACES"

showing 2 items of 2 documents

Electrical characterization of deoxyribonucleic acid hybridization in metal-oxide-semiconductor-like structures

2012

In this work, metal-oxide-semiconductor (MOS)-like sensors in which deoxyribonucleic acid (DNA) strands are covalently immobilized either on Si oxide or on a gold surface were electrically characterized. Si oxide fabrication process allowed us to have a surface insensitive to the solution pH. A significant shift in the flat band voltage was measured after single strand DNA immobilization (+0.47 +/- 0.04 V) and after the complementary strand binding (+0.07 +/- 0.02 V). The results show that DNA sensing can be performed using a MOS structure which can be easily integrated in a more complex design, thus avoiding the problems related to the integration of micro-electrochemical cells.

FabricationMaterials scienceComplementary strandPhysics and Astronomy (miscellaneous)OxideNanotechnologyElectrical characterizationSettore ING-INF/01 - ElettronicaComplex designSIO2 SURFACESMetalSi oxidechemistry.chemical_compoundCAPACITORSComplementary DNASolution pHFlat-band voltageMicro-electrochemical cellFIELD-EFFECT DEVICESMolecular biophysicsMetal oxide semiconductorDNAGold surfaceMOS structureIMMOBILIZATIONChemical engineeringchemistryFabrication proceCovalent bondvisual_artvisual_art.visual_art_mediumSingle strand DNABiosensorDNADNA sensing
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On the Relationship between Jetted Inks and Printed Biopatterns:Molecular-Thin Functional Microarrays of Glucose Oxidase

2009

Arrays of circular spots of glucose oxidase have been obtained on functionalized silicon oxide by piezoelectric inkjet printing and the enzymatic activity toward glucose recognition has been monitored. The addition of glycerol to the molecular ink allows to obtain high spot definition and resolution (tens of micrometers wide; one molecule tall), but in spite of its well-known structural stabilizing properties, in dynamic conditions it may lead to increased protein stresses. The jetting voltage and pulse length have been found to be critical factors for both activity retention and pattern definition. High voltages and pulse lengths results in stress effects along with the loss of activity, w…

GlycerolSiliconSurface PropertiesProtein Array Analysischemistry.chemical_elementNanotechnologyASPERGILLUS-NIGERMicrometreSIO2 SURFACESGlucose Oxidase inkjet printingGlucose OxidaseStructure-Activity RelationshipElectrochemistryGeneral Materials ScienceGlucose oxidaseSilicon oxideSpectroscopybiologyInkwellPulse (signal processing)ChemistryPulse durationSurfaces and InterfacesCondensed Matter PhysicsPiezoelectricityChemical engineeringIMMOBILIZATIONbiology.proteinMicroscopy Electron ScanningInkHIGH HYDROSTATIC-PRESSURE
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