about
How to design the surface of peptide-loaded nanoparticles for efficient oral bioavailability?Fate of paclitaxel lipid nanocapsules in intestinal mucus in view of their oral delivery.NMR diffusometry data sampling optimization for mixture analysis.Spontaneous nano-emulsification: Process optimization and modeling for the prediction of the nanoemulsion's size and polydispersity.Influence of the Brownian step size in off-lattice Monte Carlo simulations of irreversible particle aggregation.Lipid nanocapsules maintain full integrity after crossing a human intestinal epithelium model.Brownian cluster dynamics with short range patchy interactions: its application to polymers and step-growth polymerization.Depletion from a hard wall induced by aggregation and gelation.A multi-scale approach for percolation transition and its application to cement settingStatic structure factor of dilute solutions of polydisperse fractal aggregatesTransition between flocculation and percolation of a diffusion-limited cluster-cluster aggregation process using three-dimensional Monte Carlo simulationRelation between aggregation and phase separation: three-dimensional Monte Carlo simulationsPhase separation and percolation of reversibly aggregating spheres with a square-well attraction potential3d Monte Carlo simulation of site-bond continuum percolation of spheresTracer diffusion in colloidal gelsSelf-diffusion of reversibly aggregating spheresMonte Carlo simulation of particle aggregation and gelation: II. Pair correlation function and structure factorThe influence of bond rigidity and cluster diffusion on the self-diffusion of hard spheres with square well interactionFlocculation and percolation in reversible cluster-cluster aggregationCrystallization and dynamical arrest of attractive hard spheresSelf-diffusion of non-interacting hard spheres in particle gelsImportance of Combining Advanced Particle Size Analysis Techniques To Characterize Cell-Penetrating Peptide-Ferrocifen Self-Assemblies
P50
Q38801801-3EDD6183-0773-4A0E-B268-395014077E35Q42910331-5D9DDBC6-CFE9-40A0-BE66-8A4A1B8FCD93Q46285894-056A1FDC-CB92-4AC4-8130-6B61998C80E1Q47181808-0B4AC668-47A3-493C-AD0B-1B698291C467Q47369517-88764DC1-D44F-4B76-AC16-EF7480E20E8CQ48568163-9FB4BABD-FBC6-402F-91F9-26B7DD141017Q51066910-DA9980EA-7D00-4F59-9AA6-9AA13E01671AQ51964771-5391FE25-1C75-4CDD-A30D-8E9F26D8B9D7Q58563489-482618A2-759C-4766-B46A-52FF074DEEF5Q78117857-F473BF60-F4B1-404D-9968-7BE7E7F44D72Q78125256-8AC8CF63-00CC-4E74-ACF6-1B091F9AD9E5Q78750521-3D5FC095-7DA0-4817-9014-4304FAB83086Q79371711-21885331-D7AD-4A1A-AF3B-CC5F57188A1EQ79765296-25EA5815-12B7-48E0-BD1D-F53BB954F7C6Q80434904-6D45C154-9AED-4668-9A19-73D465E855C2Q80771468-CA0553DD-8E68-42D3-9690-F2550B3FEFB0Q80938807-265F26C2-8010-4734-9F0D-D2226B8CB4EEQ81361594-AB99F416-582A-49EF-9D19-00A820C5D570Q82678715-4211355D-8B5C-4FD6-9686-0B8EFFE9C445Q83364845-DF12073A-DEF1-4050-A51B-BCF1BCE06DDFQ84197446-03B7BD0D-EF66-4EC3-95C5-AA9B8EB11CB9Q90687748-1A3DB42F-A1F1-4BD4-9D41-1A939FC096BD
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Jean-Christophe Gimel
@ast
Jean-Christophe Gimel
@en
Jean-Christophe Gimel
@es
Jean-Christophe Gimel
@nl
Jean-Christophe Gimel
@sl
type
label
Jean-Christophe Gimel
@ast
Jean-Christophe Gimel
@en
Jean-Christophe Gimel
@es
Jean-Christophe Gimel
@nl
Jean-Christophe Gimel
@sl
prefLabel
Jean-Christophe Gimel
@ast
Jean-Christophe Gimel
@en
Jean-Christophe Gimel
@es
Jean-Christophe Gimel
@nl
Jean-Christophe Gimel
@sl
P1053
K-4302-2015
P106
P21
P31
P3829
P496
0000-0001-9865-7390
P569
2000-01-01T00:00:00Z