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Volumn 20, Issue 19, 2009, Pages
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Ultra-thin phospholipid layers physically adsorbed upon glass characterized by nano-indentation at the surface contact level
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Author keywords
[No Author keywords available]
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Indexed keywords
ADDITIONAL FORCES;
ADSORBED MOLECULES;
BIOCHEMICAL RESPONSE;
CONTACT MECHANICS;
DYNAMIC CONTACTS;
HARMONIC DISPLACEMENTS;
HARMONIC FREQUENCIES;
MECHANICAL STIMULUS;
NANO INDENTATIONS;
NANO-SCALE;
OSCILLATION FREQUENCIES;
PHASE ANGLES;
SURFACE CONTACTS;
GLASS;
MOLECULES;
NANOINDENTATION;
PHOSPHOLIPIDS;
GLASS;
PHOSPHOLIPID;
NANOMATERIAL;
ABSORPTION;
ARTICLE;
ATOMIC FORCE MICROSCOPY;
ELECTRIC ACTIVITY;
LIPID BILAYER;
OSCILLATION;
PRIORITY JOURNAL;
THICKNESS;
X RAY DIFFRACTION;
ADSORPTION;
ARTIFICIAL MEMBRANE;
CHEMISTRY;
CONFORMATION;
HARDNESS;
MACROMOLECULE;
MATERIALS TESTING;
METHODOLOGY;
NANOTECHNOLOGY;
PARTICLE SIZE;
SURFACE PROPERTY;
ULTRASTRUCTURE;
ADSORPTION;
GLASS;
HARDNESS;
HARDNESS TESTS;
LIPID BILAYERS;
MACROMOLECULAR SUBSTANCES;
MATERIALS TESTING;
MEMBRANES, ARTIFICIAL;
MOLECULAR CONFORMATION;
NANOSTRUCTURES;
NANOTECHNOLOGY;
PARTICLE SIZE;
PHOSPHOLIPIDS;
SURFACE PROPERTIES;
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EID: 65549121219
PISSN: 09574484
EISSN: 13616528
Source Type: Journal
DOI: 10.1088/0957-4484/20/19/195702 Document Type: Article |
Times cited : (17)
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References (39)
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