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Ultrasound-enhanced attenuated total reflection mid-infrared spectroscopy in-line probe: acquisition of cell spectra in a bioreactor.Ultrasonic manipulation of yeast cells in suspension for absorption spectroscopy with an immersible mid-infrared fiberoptic probe.Tunable external cavity quantum cascade laser for the simultaneous determination of glucose and lactate in aqueous phase.Reagent-free monitoring of multiple clinically relevant parameters in human blood plasma using a mid-infrared quantum cascade laser based sensor system.High performance liquid chromatography with mid-infrared detection based on a broadly tunable quantum cascade laser.Time-resolved spectral characterization of ring cavity surface emitting and ridge-type distributed feedback quantum cascade lasers by step-scan FT-IR spectroscopy.External-Cavity Quantum Cascade Laser Spectroscopy for Mid-IR Transmission Measurements of Proteins in Aqueous Solution.Remote mid-infrared photoacoustic spectroscopy with a quantum cascade laser.Quantum cascade lasers (QCLs) in biomedical spectroscopy.Workflow for multi-analyte bioprocess monitoring demonstrated on inline NIR spectroscopy of P. chrysogenum fermentation.Improved quantification of important beer quality parameters based on nonlinear calibration methods applied to FT-MIR spectra.Mid-Infrared Standoff Spectroscopy Using a Supercontinuum Laser with Compact Fabry-Pérot Filter Spectrometers.Additive Partial Least Squares for efficient modelling of independent variance sources demonstrated on practical case studies.Calibration model maintenance in melamine resin production: Integrating drift detection, smart sample selection and model adaptation.Enhanced mid-infrared multi-bounce ATR spectroscopy for online detection of hydrogen peroxide using a supercontinuum laserSensitivity-Enhanced Fourier Transform Mid-Infrared Spectroscopy Using a Supercontinuum Laser SourceMid-infrared Fourier-domain optical coherence tomography with a pyroelectric linear arrayProbeless non-invasive near-infrared spectroscopic bioprocess monitoring using microspectrometer technologyBroadband near-infrared hyperspectral single pixel imaging for chemical characterizationSub-second quantum cascade laser based infrared spectroscopic ellipsometryDiffraction limited mid-infrared reflectance microspectroscopy with a supercontinuum laser
P50
Q30418375-F270BE84-3D59-4C39-89BB-05F2EAB88A2AQ30454163-4A401E3A-3D96-4802-B01E-EBE75ABD2857Q33736732-142A5AB5-1A80-4F33-B706-A94043213D1CQ34725278-18DF0303-5B73-46BB-8960-AE16A485F01BQ35115244-843C3976-5500-4DDA-A258-DB169564E75DQ35129555-71EFD544-F5F7-4008-BA01-D40D71BD1AC3Q35658841-5BF35024-5BE5-483B-95A8-BBB8512C4CD2Q35741148-2C579A05-BF4E-4A41-BA22-92B062B340D8Q38641166-26F440D0-CBBB-4DEC-9518-E44EFDCBDA1DQ39377552-FE0FEB14-4BDE-413E-B121-849A0C654908Q39470445-53279656-C961-421F-AEAE-49A249A7FBB9Q49818957-E8412674-1935-4CAF-8997-461683AB7953Q50186295-E87BEC68-BE44-47E1-9C88-FBFF17B2CDE3Q50421044-5C81109A-B7B0-4656-9F95-F1A5069F6516Q88534240-BBF82B54-44D0-4E64-8EC1-97FC4CDAB269Q89872912-5923E682-524E-48B2-91C5-1D5D2F9FC2A4Q91054551-B20D9539-B993-4F95-BCD5-4328B9846BFBQ91699398-E5603F53-3BF9-4B04-991D-73976D12AE5CQ91745020-1351165C-E4D9-4CF0-B382-D35592099776Q91878843-DFCA7804-6758-4278-A5F9-F2A8DA052A15Q93376179-86B0A909-56C4-4D7B-BE62-C9F2728D2561
P50
description
researcher ORCID ID = 0000-0002-8679-8097
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wetenschapper
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name
Markus Brandstetter
@ast
Markus Brandstetter
@en
Markus Brandstetter
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Markus Brandstetter
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type
label
Markus Brandstetter
@ast
Markus Brandstetter
@en
Markus Brandstetter
@es
Markus Brandstetter
@nl
prefLabel
Markus Brandstetter
@ast
Markus Brandstetter
@en
Markus Brandstetter
@es
Markus Brandstetter
@nl
P31
P496
0000-0002-8679-8097