Isidora Reyes-González, Isabel Carrillo-Varela, Andre Mazega, Quim Tarrés, Marc Delgado-Aguilar, Regis Teixeira Mendonҫa
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引用次数: 0
Abstract
Chemical, enzymatic and mechanical pretreatments are needed to disrupt cellulose fibre structure and mechanically process them to produce cellulose nanofibres (CNF). The combination of sequence of chemical and enzymatic pretreatment for CNF production had been poorly investigated, especially complementing them with cellulose functionalisation, such as phosphorylation. In this study CNF were obtained by a three-stage pre-treatment carried out on bleached eucalyptus kraft pulp (BEKP) as follows: a) cold caustic extraction with 15% NaOH (CCE15), b) enzymatic treatment with 50 U Trichoderma reesei endoglucanase (EG) and c) functionalisation by chemical phosphorylation (P) with urea and di-ammonium hydrogen phosphate. Pulps obtained from the different combinations were characterised for properties such as crystallinity, viscosity, S18 solubility, fibre morphology, FTIR, SEM and SEM–EDX to determine differences between samples and treatments. CNF of selected samples were prepared by homogenisation and characterisations were performed on drop cast films prepared from them. The main results showed that the opacity of the films varied between 14%–67%, the water vapour permeability varied between 163–322 g/m2.day, the burst index was in the range of 2.0–3.3 kPa.m2/g, the tensile strength was between 6–120 MPa and the films made from phosphorylated CNF were air-impermeable. In conclusion, the combination of chemical-enzymatic pretreatments did not lead to a facilitation in CNF production compared to just performing phosphorylation or enzymatic treatment. Though, different CNF material properties can be obtained varying the pretreatments combination stages, which can be beneficial to implement if the goal is to produce CNF materials with special properties depending on the purpose.
期刊介绍:
Cellulose is an international journal devoted to the dissemination of research and scientific and technological progress in the field of cellulose and related naturally occurring polymers. The journal is concerned with the pure and applied science of cellulose and related materials, and also with the development of relevant new technologies. This includes the chemistry, biochemistry, physics and materials science of cellulose and its sources, including wood and other biomass resources, and their derivatives. Coverage extends to the conversion of these polymers and resources into manufactured goods, such as pulp, paper, textiles, and manufactured as well natural fibers, and to the chemistry of materials used in their processing. Cellulose publishes review articles, research papers, and technical notes.
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