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Volumn 2, Issue 2, 2009, Pages 14-21
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Nanoscale characterization of biological and mechanical profile of carbon stent nanocoatings
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Author keywords
Atomic force microscopy; Carbon based thin films; Fibrinogen adsorption; Nanomechanical properties; Nanotechnology; Platelets; Stent nanocoatings; Stents; Thrombogenicity
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Indexed keywords
CARBON-BASED;
FIBRINOGEN ADSORPTION;
NANOMECHANICAL PROPERTY;
STENT NANOCOATINGS;
STENTS;
THROMBOGENICITY;
ADHESION;
ADSORPTION;
ALDEHYDES;
AMORPHOUS CARBON;
AMORPHOUS FILMS;
ATOMIC FORCE MICROSCOPY;
BEHAVIORAL RESEARCH;
BIOMATERIALS;
BLOOD;
CARBON FILMS;
CENTRIFUGATION;
COAGULATION;
COATINGS;
ELASTICITY;
HYDROGEN;
ION BOMBARDMENT;
IONIC LIQUIDS;
MAGNETRON SPUTTERING;
MECHANICAL PROPERTIES;
MECHANICAL STABILITY;
MECHANISMS;
MEDICAL APPLICATIONS;
MORPHOLOGY;
NANOINDENTATION;
NANOSTRUCTURED MATERIALS;
PLASMA DEPOSITION;
PLASMA DIAGNOSTICS;
PLASMAS;
PLATELETS;
PROTEINS;
SPECTROSCOPIC ELLIPSOMETRY;
SURFACE PROPERTIES;
THIN FILMS;
TISSUE;
VACUUM APPLICATIONS;
VAPOR DEPOSITION;
SURFACE MORPHOLOGY;
BIOMATERIAL;
CARBON;
FIBRINOGEN;
GLUTARALDEHYDE;
HYDROGEN;
NANOCOATING;
NANOFILM;
NANOMATERIAL;
PHOSPHATE BUFFERED SALINE;
PLASMA PROTEIN;
ACOUSTIC MICROSCOPY;
ADSORPTION;
ARTERY WALL;
ARTICLE;
ATOMIC FORCE MICROSCOPY;
BIOCOMPATIBILITY;
CENTRIFUGATION;
CONCENTRATION RESPONSE;
CONTROLLED STUDY;
DRUG ELUTING STENT;
ELASTICITY;
ENERGY TRANSFER;
EXTRACELLULAR MATRIX;
FILM;
HUMAN;
HUMAN CELL;
HYDROGENATION;
MICROWAVE OVEN;
NANOTECHNOLOGY;
RESTENOSIS;
STENT;
SURFACE PROPERTY;
THICKNESS;
THROMBOCYTE ADHESION;
THROMBOCYTE AGGREGATION;
THROMBOGENESIS;
THROMBOGENICITY;
TOPOGRAPHY;
ULTRAVIOLET RADIATION;
VACUUM;
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EID: 77951174051
PISSN: 16625986
EISSN: 1662596X
Source Type: Journal
DOI: 10.3884/0002.2.4 Document Type: Article |
Times cited : (7)
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References (50)
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