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Toxicity assays in nanodrops combining bioassay and morphometric endpointsRare-cell enrichment by a rapid, label-free, ultrasonic isopycnic technique for medical diagnosticsShaping acoustic fields as a toolset for microfluidic manipulations in diagnostic technologiesCompact microelectrode array system: tool for in situ monitoring of drug effects on neurotransmitter release from neural cells.Quantification of functionalised gold nanoparticle-targeted knockdown of gene expression in HeLa cellsRapid ultrasonic isothermal amplification of DNA with multiplexed melting analysis – applications in the clinical diagnosis of sexually transmitted diseases.Assessment of biocompatibility of 3D printed photopolymers using zebrafish embryo toxicity assays.Lateral Chain Length in Polyalkyl Acrylates Determines the Mobility of Fibronectin at the Cell/Material Interface.Chemical-free lysis and fractionation of cells by use of surface acoustic waves for sensitive protein assays.Paper-Origami-Based Multiplexed Malaria Diagnostics from Whole Blood.An electrical biosensor for the detection of circulating tumor cells.Nebulisation on a disposable array structured with phononic lattices.Lateral patch-clamping in a standard 1536-well microplate format.Monitoring Genetic Population Biomarkers for Wastewater-Based Epidemiology.Visual detection of Brucella in bovine biological samples using DNA-activated gold nanoparticles.A capillary-based multiplexed isothermal nucleic acid-based test for sexually transmitted diseases in patients.Shape-dependent optoelectronic cell lysisCell chip array for microfluidic proteomics enabling rapid in situ assessment of intracellular protein phosphorylation.Integrated immunoassay using tuneable surface acoustic waves and lensfree detection.Polymer dual ring resonators for label-free optical biosensing using microfluidics.From chip-in-a-lab to lab-on-a-chip: towards a single handheld electronic system for multiple application-specific lab-on-a-chip (ASLOC).Particle separation by phase modulated surface acoustic waves.Rapid Veterinary Diagnosis of Bovine Reproductive Infectious Diseases from Semen using Paper-Origami DNA Microfluidics.Palm-sized biodetection system based on localized surface plasmon resonance.Lipid topology and electrostatic interactions underpin lytic activity of linear cationic antimicrobial peptides in membranes.Molecular clutch drives cell response to surface viscosity.Non-contact fluorescent bleaching-independent method for temperature measurement in microfluidic systems based on DNA melting curves.Microfluidic resonant cavities enable acoustophoresis on a disposable superstrate.Integrating microfluidic generation, handling and analysis of biomimetic giant unilamellar vesicles.Intracellular protein trafficking kinetics in chronic myeloid leukemia stem cells using a microfluidic platform.Phononic crystal structures for acoustically driven microfluidic manipulations.Tuneable surface acoustic waves for fluid and particle manipulations on disposable chips.Label-free impedance detection of low levels of circulating endothelial progenitor cells for point-of-care diagnosis.Acoustic suppression of the coffee-ring effect.Spatially selecting a single cell for lysis using light-induced electric fields.Acoustically controlled enhancement of molecular sensing to assess oxidative stress in cells.Aerosol droplet optical trap loading using surface acoustic wave nebulization.Particle separation in surface acoustic wave microfluidic devices using reprogrammable, pseudo-standing wavesCycling of Rational Hybridization Chain Reaction To Enable Enzyme-Free DNA-Based Clinical DiagnosisPaper-based microfluidics for DNA diagnostics of malaria in low resource underserved rural communities
P50
Q28469117-210EC7FB-AE67-4A82-AE30-ACE33BCC2A6FQ30422949-C648359A-202E-4C9D-BF9A-C9541DDC11D8Q30463307-ACEF9184-6A66-4C84-B8F2-5EAD8029CA95Q33319601-629C9137-73AC-4470-B35B-87BCEC756495Q35187635-C767432E-F7DA-4F81-9440-6E0715A0434EQ37842322-BB8AF55E-9655-464C-A2BF-C43C9FDA87BDQ38543437-0AA1FB9C-212A-4D18-AAEC-20F36C5CAA38Q38808118-59C152D8-0AC2-41C7-AFA5-03D0A8630EBCQ38928042-D4A588A6-EF35-4C74-98B4-7C7902CFE025Q39608511-7607CF77-8FAA-40A4-8135-39AFE42B5D54Q39623882-F7371F9F-9007-4FF8-981A-06C8B1302511Q39653350-2F4D9A76-2960-43F6-9D7E-D6B0615F1655Q39720227-6C2FB97F-38DD-45BF-ADF9-25E0E82F02A9Q40081178-6A657E84-2118-4BAB-B1B4-CD9D235A7E12Q40129959-69DE7261-DF1F-434F-8417-3FE6B5D66908Q40512170-48BA6253-DD6C-4376-9B4B-3A7ED9D61682Q40967613-AA660DEE-AFCB-4D1B-A7DD-D6591F5036CCQ42752208-3C94E5CE-B791-4F34-9C6F-51CA341A40C3Q43486477-1EA16123-3B58-4F5E-9AEB-D0446AB389BAQ44304853-82BFC794-954A-42F5-8861-C639549A9E41Q44691309-89EF6FD5-B494-4E6C-B25B-FE4268DE454BQ47335140-A56AB550-5BB2-44B1-80B7-4B7FD15EB11EQ47555522-41F9EFFE-A4A7-464B-B082-50DD9411DE2CQ47603665-03E15AAD-8F10-479D-A62A-9D45D6DD3986Q47654221-12A90975-E2B1-4F82-9831-ED5D74E8E314Q48044451-BEDCEA68-727D-4F33-9AC6-F43D5B67EA08Q50541718-4EEBC848-ADC7-4E22-95C2-FF4E7A2CCDD0Q51508652-488423C1-4FCE-499A-8A49-BC40527525EEQ51516698-666CEEAA-D886-46D8-8461-32B50E4D19E6Q51541983-A3B4D25D-B037-4782-BC97-0C2726F1036AQ51553420-68C5C207-0B50-4300-8F73-D3E44FC2CC0AQ51557556-7362614E-C1D3-4F52-91D4-4CB523DEB086Q51562380-A8033941-1447-4769-A79C-15F7880D277FQ51812748-8662A8C4-81FA-4F26-84C2-CA50FB776036Q53058723-90310B2E-2DA9-48FB-9339-E266E3BA591FQ53117864-1420B650-3BE9-462B-84F9-E3084404CF13Q54307752-9D0E1B88-5EBB-496B-A7E3-D9BFE5D172E2Q57834178-70C24FDD-2828-47CC-B1D5-05EEFFC5E216Q59357771-8CB9D01B-3B75-450E-B12E-91C400750B71Q62546638-35AC3BFA-DAFC-411E-BE0E-84A6AAD37AED
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Julien Reboud
@ast
Julien Reboud
@en
Julien Reboud
@es
Julien Reboud
@nl
Julien Reboud
@sl
type
label
Julien Reboud
@ast
Julien Reboud
@en
Julien Reboud
@es
Julien Reboud
@nl
Julien Reboud
@sl
prefLabel
Julien Reboud
@ast
Julien Reboud
@en
Julien Reboud
@es
Julien Reboud
@nl
Julien Reboud
@sl
P1053
F-1565-2014
P106
P1153
25825387900
P21
P31
P3829
P496
0000-0002-6879-8405