Ionic Liquid as Reaction Media for the Production of Cellulose-Derived Polymers from Cellulosic Biomass

The most frequent polymer on nature is cellulose that is present together with lignin and hemicellulose in vegetal biomass. Cellulose can be, in the future, sustainable raw matter for chemicals, fuels, and materials. Nevertheless, only 0.3% of cellulose is processed nowadays due to the difficulty in...

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Main Authors: Joana Maria Lopes, María Dolores Bermejo, Ángel Martín, María José Cocero
Format: Article
Language:English
Published: MDPI AG 2017-10-01
Series:ChemEngineering
Subjects:
Online Access:https://www.mdpi.com/2305-7084/1/2/10
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spelling doaj-3b1277e18a9c44949730d0b12b0d78a92020-11-25T01:03:31ZengMDPI AGChemEngineering2305-70842017-10-01121010.3390/chemengineering1020010chemengineering1020010Ionic Liquid as Reaction Media for the Production of Cellulose-Derived Polymers from Cellulosic BiomassJoana Maria Lopes0María Dolores Bermejo1Ángel Martín2María José Cocero3High Pressure Processes Group, Department of Chemical Engineering and Environmental Technology, University of Valladolid, C/ Doctor Mergelina s/n, 47011 Valladolid, SpainHigh Pressure Processes Group, Department of Chemical Engineering and Environmental Technology, University of Valladolid, C/ Doctor Mergelina s/n, 47011 Valladolid, SpainHigh Pressure Processes Group, Department of Chemical Engineering and Environmental Technology, University of Valladolid, C/ Doctor Mergelina s/n, 47011 Valladolid, SpainHigh Pressure Processes Group, Department of Chemical Engineering and Environmental Technology, University of Valladolid, C/ Doctor Mergelina s/n, 47011 Valladolid, SpainThe most frequent polymer on nature is cellulose that is present together with lignin and hemicellulose in vegetal biomass. Cellulose can be, in the future, sustainable raw matter for chemicals, fuels, and materials. Nevertheless, only 0.3% of cellulose is processed nowadays due to the difficulty in dissolving it, and only a small proportion is used for the production of synthetic cellulosic fibers especially esters and other cellulose derivatives, normally in extremely polluting processes. The efficient and clean dissolution of cellulose is a major objective in cellulose research and development. Ionic liquids (ILs) are considered “green” solvents due to their low vapor pressure, that prevents them evaporating into the atmosphere. In addition, these molten salts present advantages in process intensification, leading to more than 70 patents in lignocellulosic biomass in ILs being published since 2005, most of them related to the production of cellulose derived polymers, e.g., acetates, benzoylates, sulfates, fuorates, phthalates, succinates, tritylates, or silylates. In this work, the use of ILs for production of cellulose derived polymers is thoroughly studied. To do so, in the first place, a brief summary of the state of the art in cellulose derivatives production is presented, as well as the main features of ILs in cellulose processing applications. Later, the main results in the production of cellulose derivatives using ILs are presented, followed by an analysis of the industrial viability of the process, considering aspects such as environmental concerns and ILs’ recyclability.https://www.mdpi.com/2305-7084/1/2/10celluloseionic liquidscellulose derivativesacetylation
collection DOAJ
language English
format Article
sources DOAJ
author Joana Maria Lopes
María Dolores Bermejo
Ángel Martín
María José Cocero
spellingShingle Joana Maria Lopes
María Dolores Bermejo
Ángel Martín
María José Cocero
Ionic Liquid as Reaction Media for the Production of Cellulose-Derived Polymers from Cellulosic Biomass
ChemEngineering
cellulose
ionic liquids
cellulose derivatives
acetylation
author_facet Joana Maria Lopes
María Dolores Bermejo
Ángel Martín
María José Cocero
author_sort Joana Maria Lopes
title Ionic Liquid as Reaction Media for the Production of Cellulose-Derived Polymers from Cellulosic Biomass
title_short Ionic Liquid as Reaction Media for the Production of Cellulose-Derived Polymers from Cellulosic Biomass
title_full Ionic Liquid as Reaction Media for the Production of Cellulose-Derived Polymers from Cellulosic Biomass
title_fullStr Ionic Liquid as Reaction Media for the Production of Cellulose-Derived Polymers from Cellulosic Biomass
title_full_unstemmed Ionic Liquid as Reaction Media for the Production of Cellulose-Derived Polymers from Cellulosic Biomass
title_sort ionic liquid as reaction media for the production of cellulose-derived polymers from cellulosic biomass
publisher MDPI AG
series ChemEngineering
issn 2305-7084
publishDate 2017-10-01
description The most frequent polymer on nature is cellulose that is present together with lignin and hemicellulose in vegetal biomass. Cellulose can be, in the future, sustainable raw matter for chemicals, fuels, and materials. Nevertheless, only 0.3% of cellulose is processed nowadays due to the difficulty in dissolving it, and only a small proportion is used for the production of synthetic cellulosic fibers especially esters and other cellulose derivatives, normally in extremely polluting processes. The efficient and clean dissolution of cellulose is a major objective in cellulose research and development. Ionic liquids (ILs) are considered “green” solvents due to their low vapor pressure, that prevents them evaporating into the atmosphere. In addition, these molten salts present advantages in process intensification, leading to more than 70 patents in lignocellulosic biomass in ILs being published since 2005, most of them related to the production of cellulose derived polymers, e.g., acetates, benzoylates, sulfates, fuorates, phthalates, succinates, tritylates, or silylates. In this work, the use of ILs for production of cellulose derived polymers is thoroughly studied. To do so, in the first place, a brief summary of the state of the art in cellulose derivatives production is presented, as well as the main features of ILs in cellulose processing applications. Later, the main results in the production of cellulose derivatives using ILs are presented, followed by an analysis of the industrial viability of the process, considering aspects such as environmental concerns and ILs’ recyclability.
topic cellulose
ionic liquids
cellulose derivatives
acetylation
url https://www.mdpi.com/2305-7084/1/2/10
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