Suppression of multiple scattering by photon cross-correlation techniquesTargeted Nanocarriers for Imaging and Therapy of Vascular Inflammation.Novel Methods of Enhanced Retention in and Rapid, Targeted Release from Liposomes.Lipoproteins: When size really matters.Hydrogel microparticles from lithographic processes: novel materials for fundamental and applied colloid scienceComputational protein design: Advances in the design and redesign of biomolecular nanostructuresEvidence for water structuring forces between surfacesAdvances in cryogenic transmission electron microscopy for the characterization of dynamic self-assembling nanostructures.Surface-Mediated Delivery of DNA: Cationic Polymers Take ChargeCOCIS: Markov processes in single molecule fluorescence.AFM of biological complexes: what can we learn?Model cell membranes: Techniques to form complex biomimetic supported lipid bilayers via vesicle fusion.Inorganic Nanoparticles for Therapeutic Delivery: Trials, Tribulations and Promise.Capillary suspensions: Particle networks formed through the capillary force.The Light at the End of the Tunnel-Second Generation HPMA Conjugates for Cancer Treatment.Self-organization of Nucleic Acids in Lipid Constructs.Monte Carlo simulations of lipid bilayers and lipid protein interactions in the light of recent experimentsStructuring of edible oils by alternatives to crystalline fatCellulose and collagen: from fibres to tissuesNovel food grade dispersants: Review of recent progressPolyelectrolyte bridging interactions between charged macromoleculesBalance of enthalpy and entropy in depletion forcesIs the depletion force entropic? Molecular crowding beyond steric interactionsRecent advances in macromolecular prodrugsRecent explorations in electrostatic multilayer thin film assemblyPhysico-chemical properties of crystal surfaces in matrix–mineral interactions during mammalian biomineralisationApplications of ultrasonics in food science - novel control of fat crystallization and structuringThe study of liposomes, lamellae and membranes using neutrons and X-raysErratum to ‘Self-assembly of dendritic structures’Self-assembly of dendritic structuresRecent developments in materials synthesis in surfactant systemsAC electrokinetics of conducting microparticles: A reviewCatalytic Motors—Quo Vadimus?Oral processing, texture and mouthfeel: From rheology to tribology and beyondBinding of divalent and higher valent metal ions to surfactants and polyelectrolytesPolyelectrolyte–protein complexesMixed micelles self-assembled from block copolymers for drug deliveryMesocrystals — Applications and potentialElectrochemistry in nanoparticle scienceCharacterizing charge and crosslinker distributions in polyelectrolyte microgels
P1433
Q29011307-339E4219-1EB7-4767-B718-166048171F90Q30466992-48B8B9FC-FC37-475C-9326-887C469822BCQ30466993-A796A282-E260-472C-A955-159B0CE8AB3AQ33947533-A2D98EF5-8F50-46A3-BC14-E0F3E63FD5F8Q34820754-EF2551BE-5682-4BDE-A184-6C7860994FC6Q34897916-8F0271E5-39FE-4786-8F01-B54562BF69D5Q35572674-7F71EEBD-0250-4B56-AA7B-1B8371D0FD3FQ36433733-C24AD818-2A8C-49CD-A982-16127F92A397Q37052045-064CF97A-2EB1-4C4B-984A-CBB0B8B6736DQ37234784-875549A9-7A2D-4304-93EE-841FD260FAD2Q37607995-E2259DB7-D820-440A-A814-EA3BE21E6649Q38137053-FFCF41C2-33FD-4213-82A0-FB9FB1A4DB9EQ38222429-C4D35F78-E9A2-452F-9BFF-29ED1A96023DQ38366578-F5AA5EB4-1ED4-46A5-810E-49C5866F9EDBQ48558433-7397E185-C9AD-42E9-BA4C-C83998A25EE3Q50233841-CA49FBF9-A623-493F-B18B-4BB9ACF1F8EFQ55016313-87C61F7D-ECAB-4E48-AAE6-1CD90D8CD762Q56077650-D388B298-1673-4653-AC78-7C8D38566A30Q56136275-7C42EA1A-8711-4210-A8C2-B134C2AB4043Q56333123-E48CF80A-3E8E-4D1D-9CA2-0CD52EDA5AEFQ56482631-D2ED37D9-99CA-45EE-B271-3F5C33BCE084Q56698246-56AD263A-3AEB-4D96-AB62-68AB5FD636CCQ56698248-E31ECE25-DE33-445B-BF70-F40F166D43E1Q56752771-F32E746E-56DE-4CEC-9144-247ADE92F187Q56804348-741D5DA0-A7CB-40B2-B7C0-811A5FFA195BQ56830532-936575D3-36A2-4153-9DBC-DDFEBB0B837EQ56836133-AF9090A7-8004-4C1E-8A55-418B9A6A385DQ56886369-E4650499-1BDC-4030-9DAA-D0C50ED748A9Q56946351-5603DBEC-254F-4092-B367-C3663D12B315Q56946424-F34F8AB5-2C74-4999-9E87-B9A31652C6C5Q57029117-16E098A0-2E13-48BF-BBAF-286EE1A2FD13Q57053513-ACFE5A52-4416-46B3-A913-75DE36B81383Q57256543-D31F6B5B-00B8-4CD5-B39B-02A073F4E217Q57256909-482174DB-AA40-4619-82BA-139C4D2D2738Q57329926-DC816163-1EBF-4906-A5B9-50D7B3A7476AQ57344352-E14C0FEE-59A0-4DE8-9C54-368284AFC1DAQ57344355-08E92802-5802-456A-B2FE-4742B990BD4DQ57345702-7F4BB9B9-C0F3-4E3B-89D4-5495D98CB9FCQ57347672-13529910-9AF9-483F-8830-D8673E61010DQ57351168-7ABFDD82-72CC-4588-A788-FFBBDD6AD2FE
P1433
description
journal
@en
periodiek van uitgeverij Elsevier
@nl
مجلة
@ar
name
Current Opinion in Colloid & Interface Science
@da
Current Opinion in Colloid & Interface Science
@en
Current Opinion in Colloid & Interface Science
@fi
Current Opinion in Colloid & Interface Science
@fr
Current Opinion in Colloid & Interface Science
@nb
Current Opinion in Colloid & Interface Science
@nl
Current Opinion in Colloid & Interface Science
@nn
Current Opinion in Colloid & Interface Science
@sv
type
label
Current Opinion in Colloid & Interface Science
@da
Current Opinion in Colloid & Interface Science
@en
Current Opinion in Colloid & Interface Science
@fi
Current Opinion in Colloid & Interface Science
@fr
Current Opinion in Colloid & Interface Science
@nb
Current Opinion in Colloid & Interface Science
@nl
Current Opinion in Colloid & Interface Science
@nn
Current Opinion in Colloid & Interface Science
@sv
prefLabel
Current Opinion in Colloid & Interface Science
@da
Current Opinion in Colloid & Interface Science
@en
Current Opinion in Colloid & Interface Science
@fi
Current Opinion in Colloid & Interface Science
@fr
Current Opinion in Colloid & Interface Science
@nb
Current Opinion in Colloid & Interface Science
@nl
Current Opinion in Colloid & Interface Science
@nn
Current Opinion in Colloid & Interface Science
@sv
P243
P3181
P1055
P1156
P1159
P123
P1277
P1476
Current Opinion in Colloid & Interface Science
@en
P236
P243
P31
P3181
P407
P571
1996-01-01T00:00:00Z