about
Combining electrochemical sensors with miniaturized sample preparation for rapid detection in clinical samplesMulti-channel PMMA microfluidic biosensor with integrated IDUAs for electrochemical detection.Biopatterning for label-free detection.Development of a laser-induced cell lysis system.A microfluidic biosensor based on nucleic acid sequence recognition.Fluorescently labeled liposomes for monitoring cholera toxin binding to epithelial cells.On-chip spectrophotometry for bioanalysis using microring resonators.Biosensors for environmental pollutants and food contaminants.Bacillus anthracis: toxicology, epidemiology and current rapid-detection methods.Trends and opportunities in food pathogen detectionLiposomes in analyses.Isolation and amplification of mRNA within a simple microfluidic lab on a chip.Miniaturized isothermal nucleic acid amplification, a review.Biosensors for the detection of waterborne pathogens.Recent progress in the design of nanofiber-based biosensing devices.Miniaturized bioanalytical systems: enhanced performance through liposomes.Biologically inspired nanofibers for use in translational bioanalytical systems.Microfluidic isolation of nucleic acids.Periplasmic binding protein-based detection of maltose using liposomes: a new class of biorecognition elements in competitive assays.Aptamer sandwich assays: human α-thrombin detection using liposome enhancement.Aptamer sandwich assays: label-free and fluorescence investigations of heterogeneous binding events.A universal nucleic acid sequence biosensor with nanomolar detection limits.A review of electrochemiluminescence (ECL) in and for microfluidic analytical devices.Micro-total analysis system for virus detection: microfluidic pre-concentration coupled to liposome-based detection.Capture and culturing of living cells on microstructured DNA substrates.Application of a unique server-based oligonucleotide probe selection tool toward a novel biosensor for the detection of Streptococcus pyogenes.Sequential injection analysis system for the sandwich hybridization-based detection of nucleic acids.Electrochemical microfluidic biosensor for nucleic acid detection with integrated minipotentiostat.Microfluidic biosensor for the serotype-specific detection of dengue virus RNA.Multi-analyte single-membrane biosensor for the serotype-specific detection of Dengue virus.Biosensor for dengue virus detection: sensitive, rapid, and serotype specific.A biosensor assay for the detection of Mycobacterium avium subsp. paratuberculosis in fecal samples.Development of a microfluidic biosensor module for pathogen detection.Application of ganglioside-sensitized liposomes in a flow injection immunoanalytical system for the determination of cholera toxin.Detection of Cryptosporidium parvum using oligonucleotide-tagged liposomes in a competitive assay format.Biosensor for the specific detection of a single viable B. anthracis spore.A generic sandwich-type biosensor with nanomolar detection limits.A rapid biosensor for viable B. anthracis spores.PMMA biosensor for nucleic acids with integrated mixer and electrochemical detection.Synthesis of a liposome incorporated 1-carboxyalkylxanthine-phospholipid conjugate and its recognition by an RNA aptamer.
P50
Q28082455-090210C5-87BD-42D1-8425-2498A6C2ACD4Q30435515-FD73D82D-61CA-4336-B5D4-FA04B35E29C6Q30476595-30C87E63-63E3-417D-A07D-92B1D38232A7Q30751625-847E91CE-D522-44E9-9841-E76CD7B2FBB3Q31147966-01D98807-8117-4E57-8DD0-86542FD0B50AQ33343331-AA2B0A8E-E99C-47D4-A3C4-FA8838CE385DQ33826182-24C49EAB-45AB-4E23-94D3-614D3CF906FEQ35200612-4A71B568-14B9-4B12-B125-957A9DBFB051Q36311529-955CC538-BF4F-4101-81C6-2314FD8DE084Q36662219-F312407D-4D59-488F-A5D2-A3F27F1FAC0BQ37312592-949694A9-3CD2-47E6-9AD4-C217C881F3A2Q37582246-D19C8D9C-42CD-4EB2-AA98-EDEDAA497827Q37851033-0A9A4CDA-2AF6-41DB-8F3B-BF0AEF29BF5FQ37940216-21592D22-5360-4362-BE31-B45049EF1C6CQ38010987-FD2AD933-651F-4F20-9678-259203681E14Q38016652-E42DFA9A-4C31-406A-9B81-B4B50BF90948Q38228395-789B16CF-39F9-46C4-90B4-E787C0E0699CQ38259280-13920BCD-391E-4097-8DB0-32CAEA9B1FDAQ38317647-AC6AB4E8-D713-40DE-BE71-20DB57A5FFEEQ38342802-D3844ED8-6BFF-4639-81C2-5A57C22BBFF0Q38343873-0AA0B2EB-CAB7-4608-9618-CB67BA91324EQ38344799-5AC54137-A3D8-4C2E-85F5-4221431DE0FFQ38378702-1A6A88A7-6F89-4748-923C-146D59887052Q39475763-FC7D5430-C363-4668-B50A-18E8B2DD212DQ39664507-9BD34309-FBDF-4132-BC27-9E4A38154329Q40283459-CFD08F49-C3A5-4B5D-A653-AD756571B61CQ40343159-60401872-66F2-4A8F-A7D7-8D4E2DBBD82DQ40489735-D545FF8A-CD7A-4AA5-BBF0-30EFA7A3A905Q40492708-56620504-2937-406B-83CE-0037FF9F62EAQ40525954-2F655869-E73B-4002-A65D-1D443E06EC1BQ40585646-322AE468-A716-49FB-B4C0-187427D9DD5EQ42944030-BFCF42FB-1F71-4276-8271-DAF950D2C4F3Q43458292-0FE30550-FE88-4548-ADA0-2657E087B9A7Q43629165-5889EE93-9226-4D10-B679-4E56456ECFA0Q43684148-86824D98-C9D8-44F0-8336-7F44E89038CCQ44431143-7E939560-BF23-4457-A5DC-D5E2FC654832Q44949791-C2953AC6-24D0-49BB-A82E-95F5AFF43D03Q45017052-7E98EDD9-CA5D-4E64-848D-5738FE4B7CF4Q46148095-0E6C33F9-A7F2-421B-8D81-D1F7C17341F8Q46205237-4EF1570B-66BF-4F16-9555-63AEEE34BA78
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Antje J. Baeumner
@ast
Antje J. Baeumner
@en
Antje J. Baeumner
@es
type
label
Antje J. Baeumner
@ast
Antje J. Baeumner
@en
Antje J. Baeumner
@es
prefLabel
Antje J. Baeumner
@ast
Antje J. Baeumner
@en
Antje J. Baeumner
@es
P1053
I-8870-2016
P106
P1153
6601933345
P21
P31
P3829
P496
0000-0001-7148-3423