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TEMPO-oxidized cellulose nanofibrils prepared from various plant holocelluloses : Renewable Nanoreinforcements, Polymers and Composites

Author
KURAMAE, Ryota1 ; SAITO, Tsuguyuki1 ; ISOGAI, Akira1
[1] Department of Biomaterial Sciences, The University of Tokyo, 1-1-1 Yayoi, Bunkyo-ku, Tokyo 113-8657, Japan
Source

Reactive & functional polymers. 2014, Vol 85, pp 126-133, 8 p ; ref : 36 ref

ISSN
1381-5148
Scientific domain
Polymers, paint and wood industries
Publisher
Elsevier, Kidlington
Publication country
United Kingdom
Document type
Article
Language
English
Author keyword
Cellulose microfibril Holocellulose Nanofibrillation Sugar composition TEMPO-mediated oxidation
Keyword (fr)
Acide polymère Comparaison interspécifique Condition opératoire Cryptomeria japonica Dérivé de la pipéridine Etude comparative Etude expérimentale Eucalyptus globulus Fonctionnalité Ginkgo biloba Groupe carboxyle Hibiscus cannabinus Holocellulose Hypochlorite Modification chimique Morphologie Nanofibre Optimisation Oryza sativa Oxydation Polyélectrolyte Préparation Réaction hétérogène Spectre dimension Betula maximowicziana Holocellulose(carboxy) Nanofibrille Angiospermae Coniferales Dicotyledones Ginkgoales Gramineae Gymnospermae Malvaceae Monocotyledones Myrtaceae Spermatophyta
Keyword (en)
Polyacid Interspecific comparison Operating conditions Cryptomeria japonica Piperidine derivatives Comparative study Experimental study Eucalyptus globulus Functionality Ginkgo biloba Carboxyl group Hibiscus cannabinus Holocellulose Hypochlorites Chemical modification Morphology