about
Activation of polymorphonuclear leukocytes by candidate biomaterials for an implantable glucose sensorElectrochemical engineering of hollow nanoarchitectures: pulse/step anodization (Si, Al, Ti) and their applications.A programmable microsystem using system-on-chip for real-time biotelemetry.Implementation of radiotelemetry in a lab-in-a-pill format.Biocompatibility of a lab-on-a-pill sensor in artificial gastrointestinal environments.Implementation of multichannel sensors for remote biomedical measurements in a microsystems format.Micromachined nanocalorimetric sensor for ultra-low-volume cell-based assays.A suspended membrane nanocalorimeter for ultralow volume bioanalysis.Light emission lifetimes in p-type δ-doped GaAs/AlAs multiple quantum wells near the Mott transitionImpurity-related photoluminescence line shape asymmetry in GaAs/AlAs multiple quantum wells: Fractional-dimensional space approachExcitonic and impurity-related optical transitions in Beδ-dopedGaAs∕AlAsmultiple quantum wells: Fractional-dimensional space approachThe Increase of Radiative Lifetime of Free Excitons in Selectively Si-doped GaAs/AlxGa1-xAs HeterostructuresDynamic photoluminescence studies of vertical n+/n-GaAs/Al0.2Ga0.8As structures designed for microwave electronicsEnhanced light emission in nanostructuresEnhanced exciton photoluminescence in the selectively Si-doped GaAs/AlxGa1−xAs heterostructuresThe Characterisation and Quantification of Immobilised Concanavalin A on Quartz Surfaces Based on The Competitive Binding to Glucose and Fluorescent Labelled DextranLow power integrated electronics system for the operation of a miniaturized hydration sensorInflammatory response induced by candidate biomaterials of an implantable microfabricated sensorThe assessment of potentially interfering metabolites and dietary components in blood using an osmotic glucose sensor based on the concanavalin A–dextran affinity assayComplement inhibition prevents granulocyte activation caused by candidate biomaterials for an implantable microfabricated deviceComplement activation by candidate biomaterials of an implantable microfabricated medical deviceEnhancement of the Excitonic Photoluminescence in n+/i-GaAs by Controlling the Thickness and Impurity Concentration of the n+LayerBiocompatibility of candidate materials for an implantable glucose sensor in terms of complement and neutrophil activating propertiesComplement activation by proposed biomaterials intended for composition of a glucose sensorAnalog to interval encoder with active use of gate leakage for an implanted blood-sugar sensorImpurity-induced Huang–Rhys factor in beryllium δ-doped GaAs/AlAs multiple quantum wells: fractional-dimensional space approachA Sensor System On Chip for Wireless MicrosystemsIntegrated micro-instrumentation for dynamic monitoring of the gastro-intestinal tractAn integrated sensor microsystem for industrial and biomedical applicationsHybrid electrochemical sensor platform for capsaicin determination using coarsely stepped cyclic squarewave voltammetry
P50
Q35684979-EB1BD04E-77EC-4D77-96F0-93059E8B7BD1Q38167594-9BC66AC5-C33F-4956-8B22-5E496AD5F528Q39724575-7F8202A1-E701-42BF-9DB8-7FAE10649022Q48940956-7D024BFC-87BB-4D90-91CF-FF7D32D13741Q51111298-5F10C89A-2AC9-4D77-B292-F07BCB196A88Q51597988-8E6DF327-9799-4975-8639-3E3FAAE60E64Q51601771-6986A752-C83F-4C07-850B-D2326BE03924Q53538625-416135FD-1D93-4360-9C8E-2A79F42CD908Q56831668-62F6262D-9D8E-4FFA-9688-90CBADC8CD9EQ56831698-FA0533D9-E8CA-488F-A425-3EFF745CB36BQ61609957-CBE25899-4323-4CD8-B2A8-B65C79A13C2BQ61624604-ACA7CD9C-568B-4C94-B5C6-084A12186FB7Q61624605-0B667656-BB1B-4323-A8D3-4153D1820D10Q61624609-E0E4F450-7521-4231-83C8-97577290D814Q61624611-124CA2CD-1A0F-465B-ACEF-19CBD5AC891DQ61624612-FE354E21-E2E8-4155-9130-9B68FC5A5417Q61624619-EAF439AE-898C-4023-848E-BCBEF6220C5FQ61624624-2FD0530B-D61B-4F6F-8C03-4BC5BE624FEBQ61624625-706BC4EB-3476-4AFF-BFF0-2F3A599C4804Q61624627-467A6C1B-73AB-4A5D-B667-A968EBFD76BAQ61624629-CC206E68-631D-429A-A80C-3B27646E2F95Q61624630-E245E062-2B3B-43EB-9FEF-850D6D5F8203Q61624632-E57C5675-B6C4-48A0-AF60-565D4215F526Q61624635-3513AA8E-FD7B-49B7-9777-75CD7BD8446FQ61624636-54695B83-870D-4BF1-BA67-EBFA40996FC9Q61624639-83044EAF-3DAD-48DC-979E-A7210D808D42Q61624641-46CB9517-6ACB-4E8A-9AE0-971E7EBB9952Q61624646-CE9507E5-540C-44BD-8791-07FB76E38FE4Q61624649-A82FBAD7-1102-4714-9176-02F1DD37CA46Q91882372-5DC3C943-DD87-4F05-B529-3C32C5846789
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
E. Johannessen
@nl
Erik Johannessen
@en
Erik Johannessen
@es
type
label
E. Johannessen
@nl
Erik Johannessen
@en
Erik Johannessen
@es
altLabel
E. Johannessen
@en
prefLabel
E. Johannessen
@nl
Erik Johannessen
@en
Erik Johannessen
@es
P106
P21
P31
P496
0000-0002-2222-8140