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Volumn 187, Issue , 2020, Pages
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Functionalization of LC molecular films with nanocrystalline cellulose: A study of the self-assembly processes and molecular stability
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Author keywords
Cellulose nanocrystals CNC; Liquid crystals LC; Nanocomposite langmuir films; Sorption and desorption processes
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Indexed keywords
ASSOCIATION REACTIONS;
CELLULOSE;
CELLULOSE DERIVATIVES;
CELLULOSE FILMS;
CHEMICAL ANALYSIS;
DESORPTION;
LIQUID CRYSTALS;
MONOLAYERS;
NANOCELLULOSE;
NANOCOMPOSITE FILMS;
NANOCOMPOSITES;
NANOCRYSTALS;
PHASE SEPARATION;
SELF ASSEMBLY;
SYNTHESIS (CHEMICAL);
BREWSTER ANGLE MICROSCOPY;
CELLULOSE NANO-CRYSTALS;
CELLULOSE NANOCRYSTAL (CNC);
INTERMOLECULAR INTERACTIONS;
NANOCRYSTALLINE CELLULOSE;
PHYSICAL AND CHEMICAL PROPERTIES;
PREPARATION PROCEDURES;
SORPTION AND DESORPTIONS;
FILM PREPARATION;
CELLULOSE;
NANOCRYSTAL;
NANOCOMPOSITE;
NANOPARTICLE;
ADSORPTION;
ARTICLE;
BREWSTER ANGLE MICROSCOPY;
CHEMICAL INTERACTION;
CHEMICAL STRUCTURE;
COMPRESSION;
CONTROLLED STUDY;
DESORPTION;
DISPERSION;
ELASTICITY;
LIQUID CRYSTAL;
MEASUREMENT ACCURACY;
MEASUREMENT PRECISION;
MOLECULAR SIZE;
MOLECULAR STABILITY;
PHASE SEPARATION;
PHYSICAL CHEMISTRY;
PRIORITY JOURNAL;
RATE CONSTANT;
REPRODUCIBILITY;
CHEMISTRY;
COMPRESSIVE STRENGTH;
KINETICS;
PRESSURE;
SURFACE PROPERTY;
TEMPERATURE;
TIME FACTOR;
CELLULOSE DERIVATIVES;
CHEMICAL ANALYSIS;
DESORPTION;
LIQUID CRYSTALS;
MONOLAYERS;
CELLULOSE;
COMPRESSIVE STRENGTH;
KINETICS;
LIQUID CRYSTALS;
NANOCOMPOSITES;
NANOPARTICLES;
PRESSURE;
SURFACE PROPERTIES;
TEMPERATURE;
TIME FACTORS;
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EID: 85075340695
PISSN: 09277765
EISSN: 18734367
Source Type: Journal
DOI: 10.1016/j.colsurfb.2019.110634 Document Type: Article |
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Times cited : (7)
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References (17)
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