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Volumn 79, Issue 1, 2010, Pages 205-209
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AFM surface morphology and friction force studies of microscale domain structures of binary phospholipids
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Author keywords
AFM; FFM; Friction force; LB film; Phospholipid
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Indexed keywords
AFM;
FRICTION FORCE;
INCREASED TEMPERATURE;
KEY FACTORS;
LANGMUIR BLODGETT TECHNIQUES;
LB FILMS;
LIQUID CRYSTALLINE PHASE TRANSITION;
LIQUID-CRYSTALLINE;
MATRIX;
MATRIX REGIONS;
MICRO-SCALE DOMAINS;
MONOLAYER FILM;
PHASE STATE;
PHOSPHOLIPID MONOLAYERS;
TWO-COMPONENT;
ATOMIC FORCE MICROSCOPY;
BINARY MIXTURES;
CRYSTALLINE MATERIALS;
FRICTION;
GELS;
LIQUIDS;
MAGNETIC FILMS;
MICA;
MONOLAYERS;
PHASE TRANSITIONS;
PHOSPHOLIPIDS;
SILICATE MINERALS;
TRIBOLOGY;
LANGMUIR BLODGETT FILMS;
DILAUROYLPHOSPHATIDYLCHOLINE;
DISTEAROYLPHOSPHATIDYLCHOLINE;
PHOSPHOLIPID;
ARTICLE;
ATOMIC FORCE MICROSCOPY;
FILM;
FRICTION;
HYDROPHOBICITY;
MORPHOLOGY;
PRIORITY JOURNAL;
PROTEIN STRUCTURE;
TEMPERATURE;
LIPID BILAYERS;
MEMBRANE MICRODOMAINS;
MEMBRANES, ARTIFICIAL;
MICROSCOPY, ATOMIC FORCE;
PHOSPHATIDYLCHOLINES;
TEMPERATURE;
THERMODYNAMICS;
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EID: 77952958354
PISSN: 09277765
EISSN: None
Source Type: Journal
DOI: 10.1016/j.colsurfb.2010.03.051 Document Type: Article |
Times cited : (8)
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References (27)
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