Albert van den Berg
utwente-staging.elsevierpure.com
0000-0001-9019-933X
University Twente
517 papers found
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3D Blood Vessels-on-Chip for atherosclerosis modelling
Determining Particle Size and Position in a Coplanar Electrode Setup Using Measured Opacity for Microfluidic Cytometry
Detection of Spontaneous FeOOH Formation at the Hematite/Ni(Fe)OOH Interface During Photoelectrochemical Water Splitting by Operando X-ray Absorption Spectroscopy
Facilitating implementation of organs-on-chips by open platform technology
Transwell‐Integrated 2 µm Thick Transparent Polydimethylsiloxane Membranes with Controlled Pore Sizes and Distribution to Model the Blood‐Brain Barrier
Dynamic inflammatory stimulation of hiPSC-endothelial cells in a multiplexed microfluidic chip
Particle Size Determination in Impedance Flow Cytometry Using Measured Opacity
Highly parallelized human embryonic stem cell differentiation to cardiac mesoderm in nanoliter chambers on a microfluidic chip
Fabrication of freestanding Pt nanowires for use as thermal anemometry probes in turbulence measurements
Collagen I Based Enzymatically Degradable Membranes for Organ-on-a-Chip Barrier Models
Monitoring Contractile Cardiomyocytes via Impedance Using Multipurpose Thin Film Ruthenium Oxide Electrodes
On-chip electrocatalytic NO sensing using ruthenium oxide nanorods
Coccolithophore calcification studied by single-cell impedance cytometry: Towards single-cell PIC:POC measurements
Diffusion through single porous particles studied in a microfluidic system
A versatile platform that allows mechanical and electrical stimulation to improve maturation of hPSC-derived 3D engineered heart tissues
ForceTracker: A versatile tool for contractile force assessment in 3D Organ-on-Chip platforms
Engineering 3D vascularized heart tissues using hPSC derived cardiac cells
Particle size determination via supervised machine learning in microfluidic impedance spectroscopy
Comparing on-chip colorectal cancer spheroid drug response to xenografts
Measuring Both pH and O2 with a Single On-Chip Sensor in Cultures of Human Pluripotent Stem Cell-Derived Cardiomyocytes to Track Induced Changes in Cellular Metabolism
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