about
Individually addressable arrays of replica microbial cultures enabled by splitting SlipChips.Polymers in the gut compress the colonic mucus hydrogel.Surface potentials and layer charge distributions in few-layer graphene films.Crystallographic etching of few-layer graphene.Functionalized carbon nanotubes for detecting viral proteins.The microfluidic post-array device: high throughput production of single emulsion drops.Suppressing viscous fingering in structured porous media.Microfluidic Model Porous Media: Fabrication and Applications.Ultrathin shell double emulsion templated giant unilamellar lipid vesicles with controlled microdomain formation.Controlling Release From pH-Responsive MicrocapsulesMicrofluidic Fabrication of Stable Gas-Filled Microcapsules for Acoustic Contrast EnhancementDelayed Buckling and Guided Folding of Inhomogeneous CapsulesAdsorption and Denaturation of Structured Polymeric Nanoparticles at an InterfaceControlling the Morphology of Polyurea Microcapsules Using Microfluidics25th Anniversary Article: Double Emulsion Templated Solid Microcapsules: Mechanics And Controlled ReleaseSpatial Fluctuations of Fluid Velocities in Flow through a Three-Dimensional Porous MediumRheology of attractive emulsionsControlled Buckling and Crumpling of Nanoparticle-Coated DropletsReal-Time TEM Imaging of the Formation of Crystalline Nanoscale GapsElectrostatic Force Microscopy of Nanofibers and Carbon Nanotubes: Quantitative Analysis Using Theory and ExperimentHigh-molecular-weight polymers from dietary fiber drive aggregation of particulates in the murine small intestineBacterial hopping and trapping in porous mediaScaling Law for Cracking in Shrinkable Granular PackingsConfinement and activity regulate bacterial motion in porous mediaCrack formation and self-closing in shrinkable, granular packingsCooperative size sorting of deformable particles in porous media
P50
Q30832734-6F81FD37-FA6B-4CE4-8C3E-7429FC9BF176Q37065202-EB907169-8FBD-43DD-AD72-9665C10941E6Q47585451-20BE2A74-DCF2-4721-9126-369AF9CA4956Q47622081-E6FCEF5C-789F-48C8-8F78-1237DCEF5064Q50085492-290C4F85-23F0-4C38-AC84-1AC80FC29D8BQ51525411-D622D686-A0F9-4F61-8698-5AD226E45A5CQ52568666-910C4A5C-59E1-41F7-8369-48A1C210E17BQ52661392-810A383B-112B-4998-81DD-612C3A5A1D8DQ54709962-73D770F1-CDA3-4B1F-B274-D81699C860B9Q57375793-23FCE72E-7464-4FDB-B7E0-8DFDCD84C557Q57425365-923A73FC-9826-4A83-87E4-750D4C5E9A58Q58344095-ABDBF6E0-B16C-4C38-908B-8883CEF8FD67Q59730323-6267C836-F306-40F7-ACFD-66A3894666BEQ59730330-3E3DA1A6-5060-41BF-9808-6E7B44E11A0DQ59730342-CAAB73AD-BF74-4C6E-ACE7-16FC1A521F8DQ59730371-CAFC322A-30B2-49F7-8612-D084197986EDQ59730389-4076C6A6-6BEC-4FD9-B60A-A770129B05ADQ59730398-610CABE7-4906-490D-839E-74619935653BQ59730415-2A28469C-12B4-46CB-BEF6-83F9C5979C63Q59730421-75B2ED48-2929-4B38-BB41-BCF2C65450DFQ61445389-33FE256B-FE0C-44ED-B1AC-0BD0D6F80344Q64065760-365F6774-859B-4FE9-8826-1829DC586167Q91185086-F6E549C6-B44C-4C74-A208-1D48D55595B0Q91370615-5B16ED39-C252-4219-B2F8-52A2DD68DD71Q92230938-E735F76C-2CF5-4F8B-BDFB-DBBF39D21090Q93023651-2E223999-1161-49E7-8F64-77B0EC20EE8B
P50
description
researcher ORCID ID = 0000-0003-2400-1561
@en
wetenschapper
@nl
name
Sujit S Datta
@ast
Sujit S Datta
@en
Sujit S Datta
@nl
type
label
Sujit S Datta
@ast
Sujit S Datta
@en
Sujit S Datta
@nl
prefLabel
Sujit S Datta
@ast
Sujit S Datta
@en
Sujit S Datta
@nl
P106
P31
P496
0000-0003-2400-1561