Enzymatic hydrolysis of cellulose-rich fraction of Arctic seaweeds using Penicillium- and Myceliophtora-based glycoside hydrolases

Bogolitsyn, Konstantin; Parshina, Anastasia; Mayorova, Ksenia; Aksenov, Andrey; Polomarchuk, Daria; Sinitsyna, Olga; Sinitsyn, Arkady

doi:10.1007/s13399-024-05934-2

Biomass Conv. Bioref.

2024

DOI: 10.1007/s13399-024-05934-2

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Enzymatic hydrolysis of cellulose-rich fraction of Arctic seaweeds using Penicillium- and Myceliophtora-based glycoside hydrolases

Konstantin Bogolitsyn,

Anastasia Parshina,

Ksenia Mayorova

et al.

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Preparation of Lyocell Fibers from Solutions of Miscanthus Cellulose

Makarov,

Budaeva,

Gismatulina

et al. 2024

Polymers

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Both annual (cotton, flax, hemp, etc.) and perennial (trees and grasses) plants can serve as a source of cellulose for fiber production. In recent years, the perennial herbaceous plant miscanthus has attracted particular interest as a popular industrial plant with enormous potential. This industrial crop, which contains up to 57% cellulose, serves as a raw material in the chemical and biotechnology sectors. This study proposes for the first time the utilization of miscanthus, namely Miscanthus Giganteus “KAMIS”, to generate spinning solutions in N-methylmorpholine-N-oxide. Miscanthus cellulose’s properties were identified using standard methods for determining the constituent composition, including also IR and atomic emission spectroscopy. The dry-jet wet method was used to make fibers from cellulose solutions with an appropriate viscosity/elasticity ratio. The structural characteristics of the fibers were studied using IR and scanning electron microscopy, as well as via X-ray structural analysis. The mechanical and thermal properties of the novel type of hydrated cellulose fibers demonstrated the possibility of producing high-quality fibers from miscanthus.

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Preparation of Lyocell Fibers from Solutions of Miscanthus Cellulose

Makarov,

Budaeva,

Gismatulina

et al. 2024

Polymers

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show abstract

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Enzymatic hydrolysis of cellulose-rich fraction of Arctic seaweeds using Penicillium- and Myceliophtora-based glycoside hydrolases

Cited by 1 publication

References 64 publications

Preparation of Lyocell Fibers from Solutions of Miscanthus Cellulose

Preparation of Lyocell Fibers from Solutions of Miscanthus Cellulose

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