Cellulose and Its Derivatives: Chemistry, Biochemistry, and ApplicationsJohn F. Kennedy |
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Page 60
... energy ( tot ) of the molecules as a function of all the internal angles of represents the contribution to the total energy due to Van der Waals interactions between all the couples of non - linked atoms where relative position depends ...
... energy ( tot ) of the molecules as a function of all the internal angles of represents the contribution to the total energy due to Van der Waals interactions between all the couples of non - linked atoms where relative position depends ...
Page 64
... energy was found for a shift of the central antiparallel chain along its axis of 2,6 Å ( X - ray deduced = 2,9 Å ) . After a few minor side - chain bond rotations necessary to minimize the total energy , the five chains network had energy ...
... energy was found for a shift of the central antiparallel chain along its axis of 2,6 Å ( X - ray deduced = 2,9 Å ) . After a few minor side - chain bond rotations necessary to minimize the total energy , the five chains network had energy ...
Page 74
... energy is continuously transferred to the cellulose polymeric system having either of two consequences : energy is absorbed by or dissipated from the system . If energy is dissipated efficiently by a relaxation process , then there will ...
... energy is continuously transferred to the cellulose polymeric system having either of two consequences : energy is absorbed by or dissipated from the system . If energy is dissipated efficiently by a relaxation process , then there will ...
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acetate acrylic acid adhesive adsorbed adsorption amorphous amylose anionic aqueous ball mill cell cellobiohydrolase cellobiose cellulose acetate cellulose derivatives Cellulose Ethers cellulose fibers cellulose molecules cellulose nitrate cement ceramic tiles CH₂OH chain Chem chemical Chemistry chitosan colloid concentration copolymer cotton crystal crystalline D-glucose decomposition decrease degradation degree of substitution denitration dyed amylose effect emulsion endoglucanase energy enzyme fibres fibrils Figure formation glucose grafting hydration hydrogen bonds hydrolysis hydroxyethyl cellulose hydroxyl groups immobilized increase industrial initial latex layer lignin material mechanical method methyl microcrystalline cellulose molecular weight monomer morphology nitrocellulose nitrogen obtained oxidation oxygen particle polymer polymerization properties protective colloid pulp radicals reaction reactivity residues sample shown shows sodium sodium hydroxide soluble solution solvent sorbed spectra stability strength structure studies substrate surface surfactant Table temperature values viscosity wood X-ray xanthan gum yield