Vesicle adsorption and phospholipid bilayer formation on topographically and chemically nanostructured surfaces

Journal of Physical Chemistry B

Volumn 114, Issue 13, 2010, Pages 4623-4631

  Pfeiffer, Indriati ^a   Petronis, Sarunas ^b   Köper, Ingo ^a   Kasemo, Bengt ^b   Zäch, Michael ^b  

^a MAX PLANCK INSTITUTE FOR POLYMER RESEARCH   (Germany)

^b CHALMERS UNIVERSITY OF TECHNOLOGY   (Sweden)

Author keywords

[No Author keywords available]

Indexed keywords

ADSORPTION; ATOMIC FORCE MICROSCOPY; BODY FLUIDS; CAPILLARITY; FREE ENERGY; GOLD; GOLD METALLURGY; NANOSTRUCTURED MATERIALS; OXIDE MINERALS; PHOSPHOLIPIDS; QUARTZ; QUARTZ CRYSTAL MICROBALANCES; SILICA; SILICON COMPOUNDS; SILICON OXIDES; SULFUR COMPOUNDS; SURFACE CHEMISTRY; SURFACE TOPOGRAPHY;

BI-LAYER; BOVINE SERUM ALBUMINS; COLLOIDAL LITHOGRAPHY; CONTROLLED MODEL; FREE-ENERGY CALCULATIONS; GOLD SURFACES; LIPID VESICLES; NANOSCALE TOPOGRAPHY; NANOSTRUCTURED SURFACE; PHOSPHOCHOLINE; PHOSPHOLIPID BILAYER; QUARTZ CRYSTAL MICROBALANCE WITH DISSIPATION MONITORING; SILICON DIOXIDE; SUPPORTED LIPID BILAYERS; TOP SURFACE; UNILAMELLAR; VESICLE ADSORPTION; VESICLE SIZE;

LIPID BILAYERS;

EID: 77950590834     PISSN: 15206106     EISSN: 15205207     Source Type: Journal    
DOI: 10.1021/jp908283g     Document Type: Article

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