about
Insights into Protein-Ligand Interactions: Mechanisms, Models, and MethodsNonadditivity of critical Casimir forces.Geometrically controlled snapping transitions in shells with curved creases.Hexadecapolar colloids.Shape-shifting colloids via stimulated dewetting.Surface-enabled propulsion and control of colloidal microwheelsComplex-shaped three-dimensional multi-compartmental microparticles generated by diffusional and Marangoni microflows in centrifugally discharged droplets.Using Markov state models to study self-assemblyInformation capacity of specific interactionsCatalytically powered dynamic assembly of rod-shaped nanomotors and passive tracer particles.Sterically stabilized lock and key colloids: a self-consistent field theory study.Surface roughness directed self-assembly of patchy particles into colloidal micelles.Lipid-coated hydrogel shapes as components of electrical circuits and mechanical devices.Cup-shaped superparamagnetic hemispheres for size-selective cell filtrationSuperlattices assembled through shape-induced directional binding.Reconfigurable multi-scale colloidal assembly on excluded volume patterns.Soluto-inertial phenomena: Designing long-range, long-lasting, surface-specific interactions in suspensionsSite-specific colloidal crystal nucleation by template-enhanced particle transport.Processable high internal phase Pickering emulsions using depletion attractionShape allophiles improve entropic assembly.Sequential self-assembly of DNA functionalized dropletsPhase diagrams of binary mixtures of patchy colloids with distinct numbers and types of patches: the empty fluid regime.Compartmentalized photoreactions within compositionally anisotropic Janus microstructures.Electrostatics-driven shape transitions in soft shells.Self-replication of information-bearing nanoscale patterns.COLLOIDS. Colloidal matter: Packing, geometry, and entropy.Topological colloids.Multiple patterns of polymer gels in microspheres due to the interplay among phase separation, wetting, and gelation.Toward coordinated colloids: site-selective growth of titania on patchy silica particlesSphere to ring morphological transformation in drying nanofluid droplets in a contact-free environment.Nematic ordering of polarizable colloidal rods in an external electric field: theory and experiment.Supracolloidal Architectures Self-Assembled in Microdroplets.Assembly of reconfigurable one-dimensional colloidal superlattices due to a synergy of fundamental nanoscale forces.Mechanisms of kinetic trapping in self-assembly and phase transformation.Hierarchical Self-Assembly of 3D-Printed Lock-and-Key Colloids through Shape Recognition.Nonsingular defects and self-assembly of colloidal particles in cholesteric liquid crystals.Arrested demixing opens route to bigels.Flagellar dynamics of a connected chain of active, polar, Brownian particles.Using active colloids as machines to weave and braid on the micrometer scale.Design and elaboration of colloidal molecules: an overview.
P2860
Q26773062-A8411D3B-FD2E-41C9-A74E-BDA760316388Q27318678-3F6614D9-FE91-4FB4-9D25-BB9CC36787BBQ27321563-DF7A252C-BF55-4859-AB24-9A1D24050700Q27332733-C08DE37F-5EC9-4C4F-8A2D-A0C99AF63241Q27335205-E89F6D2C-8C20-4257-AF29-3F1DECEC7842Q27336355-9F66A7BF-813A-4F05-ADC7-1B97E1416BC9Q27350007-10F352A7-BB71-43E1-A8F5-7BA388FFAA71Q28658682-E63A35A8-2244-42DC-8D93-54AD720BF7D6Q28829518-41E484F2-43F8-4859-A2DB-06A980B9D6CFQ30439492-BDCDDE56-7AD0-4D16-94EF-5F7A7BEEF582Q30453504-B2C4E926-49C1-4243-8D2D-A878368936A5Q30519522-EDF3B93F-894B-47BA-975C-A2A3F166C375Q30528315-B00D73E7-1344-4659-829A-FA56ECE7E78EQ30586959-166E279B-AE9D-4256-943A-433E83EDEA11Q30648780-CD3D8C9C-0E3D-4F67-9FB8-8E633EB6824BQ30663324-824BB010-5766-4C02-91EF-E960DE380FB0Q30796617-521A43DC-2684-462C-ADD8-CDC57B9E215CQ30826957-5E3F0DA4-13C6-4960-B815-E2CCF179726EQ30837849-F71EE64B-498C-4949-9A44-A3381B532BB2Q33361076-3877962B-2C8B-4A2E-B398-DD0B8CF30DE7Q33808045-656C4D79-BE04-4CED-975F-4684815EC809Q33846356-5766561D-5FC9-446C-9BF2-F771A355F978Q33854369-FDB81FF2-2C34-4F3F-A7BB-21FDE0CF63A7Q34144680-45F7F6FA-BC2E-454C-A7C4-52EBC88DB87BQ34223673-DBC064C6-F632-4533-8FF5-23C4CAA83552Q34491337-66CEA80D-9CCD-4517-BEA3-D7316317D11AQ34521947-540AE66F-C1B6-4081-ABED-D7734513C586Q34526237-1A5E2F33-7255-4553-B1A9-9BF98AF3B5A8Q35206169-0947B14B-28AB-471E-8107-B8FF717BB1E4Q35555253-E2CC8FF6-A119-49C5-B331-90758A0C1FA9Q35739728-4E88CC04-A618-499F-AD8E-52DC44E2A2C3Q35767365-689C599D-536A-4F99-B806-091625000F13Q35787186-132F0EB0-8EC0-4F5B-89F7-7A18CB7CBABBQ35798376-04C3F518-10AC-46D6-B112-B9EAED257C34Q36087731-5B265B32-6CC0-4B37-862B-9E469B7656D3Q36248594-5849323D-E842-4637-82B9-9B48AFBA217FQ36437034-AE2D0EF1-F389-42E0-B03B-68469CEF0697Q37507783-618D4C77-5A0E-4653-99FA-6BC5CFCD0D98Q37589918-4FE1A91C-C761-43A4-AB4B-8A988936E44DQ37826626-0ABE1BDB-1B66-4C43-BC81-EAFA63276BCF
P2860
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature в березні 2010
@uk
name
Lock and key colloids
@en
Lock and key colloids
@nl
type
label
Lock and key colloids
@en
Lock and key colloids
@nl
prefLabel
Lock and key colloids
@en
Lock and key colloids
@nl
P50
P356
P1433
P1476
Lock and key colloids
@en
P2093
P M Chaikin
P2888
P304
P356
10.1038/NATURE08906
P407
P577
2010-03-01T00:00:00Z
P6179
1045926273