Ultrathin film coatings of aligned cellulose nanocrystals from a convective-shear assembly system and their surface mechanical properties

Soft Matter

Volumn 7, Issue 5, 2011, Pages 1957-1967

  Hoeger, Ingrid ^a   Rojas, Orlando J ^a,b   Efimenko, Kirill ^c   Velev, Orlin D ^c   Kelley, Steve S ^a  

^a NORTH CAROLINA STATE UNIVERSITY   (United States)

^b AALTO UNIVERSITY   (Finland)

^c North Carolina State University   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

AQUEOUS SUSPENSIONS; ASSEMBLY SYSTEMS; BARE SOLIDS; CAPILLARY FORCE; CATIONIC POLYELECTROLYTE; CELLULOSE NANOCRYSTALS; CHIRAL NEMATIC PHASE; COEFFICIENT OF FRICTIONS; CRITICAL CONCENTRATION; DEGREE OF ORIENTATION; ENHANCED SURFACE; MECHANICAL STRENGTH; NUMBER DENSITY; RELATIVE HUMIDITIES; SCALE-UP; SHEAR EFFECT; SHEAR FORCE; SILICA SUPPORTS; SOLID SUPPORTS; SURFACE MECHANICAL PROPERTIES; SUSPENSION CONCENTRATIONS; YOUNG'S MODULUS;

ALIGNMENT; ATMOSPHERIC HUMIDITY; ATOMIC FORCE MICROSCOPY; CELLULOSE; CELLULOSE DERIVATIVES; CELLULOSE FILMS; COATINGS; ELASTIC MODULI; ELASTICITY; GOLD DEPOSITS; MAGNETIC FIELDS; MECHANICAL PROPERTIES; NANOCRYSTALS; NANOINDENTATION; NANOMAGNETICS; PHASE SEPARATION; SHEAR FLOW; SILICA; SUSPENSIONS (FLUIDS); WEAR RESISTANCE;

ULTRATHIN FILMS;

ABRASION RESISTANCE; CELLULOSE FILM; COATINGS; DISPERSIONS; ELASTIC STRENGTH; GOLD; HUMIDITY; MAGNETIC FIELDS; MECHANICAL PROPERTIES; SHEAR FLOW; SILICA;

EID: 79951939340     PISSN: 1744683X     EISSN: 17446848     Source Type: Journal    
DOI: 10.1039/c0sm01113d     Document Type: Article

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