about
Targeted multifunctional multimodal protein-shell microspheres as cancer imaging contrast agents.Spectroscopic optical coherence elastography.Dynamic spectral-domain optical coherence elastography for tissue characterization.In vivo magnetomotive optical molecular imaging using targeted magnetic nanoprobesDynamics of Magnetic Nanoparticle-Based Contrast Agents in Tissues Tracked Using Magnetomotive Optical Coherence TomographyFc-DIRECTED ANTIBODY CONJUGATION OF MAGNETIC NANOPARTICLES FOR ENHANCED MOLECULAR TARGETING.Optofluidic bioimaging platform for quantitative phase imaging of lab on a chip devices using digital holographic microscopy.Highly efficient bienzyme functionalized nanocomposite-based microfluidics biosensor platform for biomedical application.Three-dimensional optical coherence tomography for optical biopsy of lymph nodes and assessment of metastatic disease.Microfluidic-integrated biosensors: prospects for point-of-care diagnostics.Protein functionalized carbon nanotubes-based smart lab-on-a-chip.Quantitative phase imaging of live cells with near on-axis digital holographic microscopy using constrained optimization approach.A highly efficient microfluidic nano biochip based on nanostructured nickel oxide.Label-free nanoscale characterization of red blood cell structure and dynamics using single-shot transport of intensity equation.Microporous Nanocomposite Enabled Microfluidic Biochip for Cardiac Biomarker Detection.A surface functionalized nanoporous titania integrated microfluidic biochip.Protein-conjugated quantum dots interface: binding kinetics and label-free lipid detectionChitosan-Modified Carbon Nanotubes-Based Platform for Low-Density Lipoprotein DetectionLipid–Lipid Interactions in Aminated Reduced Graphene Oxide Interface for Biosensing ApplicationLow power real time signal processing engine for optical coherence tomography systems using multi-core digital signal processorMagnetomotive optical coherence microscopy for cell dynamics and biomechanicsSingle-shot compressive spectral imaging with a dual-disperser architectureDual-modality microfluidic biosensor based on nanoengineered mesoporous graphene hydrogels
P50
Q30458732-FC8477B7-F27F-44E0-BADC-37A6F524D889Q30468763-F13FE93F-AE38-4616-AE86-07265B14C01DQ30469370-E7FB29DF-0FB4-40AF-80E0-93C997CBC28EQ30478802-39589D6F-281E-485F-9DB5-05D87C4399B8Q34447715-1243B3B3-56E5-417E-AB58-43804E9EDB33Q35018391-7F0DE09F-85FE-411B-88BD-D3AFAB4BD2E9Q35911904-2FE3CE04-B59C-4777-ACCB-420BE3B0AAF4Q37201852-60229AB2-ED54-41E2-A048-5ACC214FE8E8Q37701164-22C6F125-F601-4DEC-94BB-5E7E1CD839F3Q38135781-A14740ED-60F4-43F0-A39F-340430210C71Q38905857-D5132651-2314-4A12-8F72-7F0664C5D646Q40414728-D17746FE-2BE8-4216-A311-7C3781E7ED12Q44727258-9E5A2EBB-6756-4FF7-81F6-5BAB7C8772E3Q47595995-F7D81F7D-C6F0-40D9-927F-9CC3186179C9Q47689937-39D4C6E8-DCFA-4DEF-89B1-62DABB031459Q51506865-96AE767D-23A4-4A1B-9927-6348CCC4C278Q57124851-794BA05D-4EE7-4DE3-909F-D33426BF682CQ62492082-037513EB-A5D0-48A0-B921-FA099E0AE1B9Q62492099-5F8DC3FC-CC18-4504-AC65-F4EDB0150C4DQ62501534-682CEFC8-C973-4217-9CCA-EBA27ABDDD2BQ62501547-2CC12520-2A63-4ECE-AA4E-10788C22CCEBQ62501580-2ACF0506-60D7-4C95-A664-E36F5A477404Q92726919-6D985381-88B5-48A9-AEC8-8369B8F7724E
P50
description
researcher ORCID ID = 0000-0003-3254-2472
@en
wetenschapper
@nl
name
Renu John
@ast
Renu John
@en
Renu John
@es
Renu John
@nl
type
label
Renu John
@ast
Renu John
@en
Renu John
@es
Renu John
@nl
prefLabel
Renu John
@ast
Renu John
@en
Renu John
@es
Renu John
@nl
P106
P1153
8940371200
P31
P496
0000-0003-3254-2472