A novel method for cellulose modification in aqueous media via alkoxysilane chemistry

A novel method for cellulose modification in aqueous media via alkoxysilane chemistry

Surface modification of cellulose, as the world’s most abundant polymer, plays an important role in sustainable chemistry. Microcrystalline cellulose, Avicel, was modified by an alkoxysilane under mild conditions in water, at room temperature and with a catalytic amount of sodium hydroxide. (3-Merca...

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Main Authors: Fereshteh Fadavi, Ali Abdolkhani, Yahya Hamzeh, Hubert Hettegger, Thomas Rosenau
Format: Article
Language:fas
Published: Iranian Scientific Association of Wood and Paper Industries 2016-12-01
Series:Iranian Journal of Wood and Paper Industries
Subjects:
Cellulose modification
cellulose surface chemistry
microcrystalline cellulose
alkoxysilane chemistry
(3-mercaptopropyl)-trimethoxysilane
Online Access:http://www.ijwp.ir/article_19849_6c4b92ada92917cdf78b2dab051f95fd.pdf
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spelling doaj-ab4cb0dd98874d69a4232eb48496bda22020-11-24T22:26:39Zfas Iranian Scientific Association of Wood and Paper IndustriesIranian Journal of Wood and Paper Industries2008-90662423-32422016-12-017346347419849A novel method for cellulose modification in aqueous media via alkoxysilane chemistryFereshteh Fadavi0Ali Abdolkhani1Yahya Hamzeh2Hubert Hettegger3Thomas Rosenau4Ph.D. student of University of Tehran, University College of Agriculture and Natural Resources, Faculty of wood and Paperdepartment of pulp and paper thecnology, faculty of natural resources, University of TehranDepartment of wood and paper technology, faculty of natural resources, university college of agricultural sciences and matural resources, university of TehranUniversity of Natural Resources and Life Sciences Vienna (BOKU), Department of Chemistry, Division of Chemistry of Renewable Resources.University of Natural Resources and Life Sciences Vienna (BOKU), Department of Chemistry, Division of Chemistry of Renewable Resources (BOKU), AustriaSurface modification of cellulose, as the world’s most abundant polymer, plays an important role in sustainable chemistry. Microcrystalline cellulose, Avicel, was modified by an alkoxysilane under mild conditions in water, at room temperature and with a catalytic amount of sodium hydroxide. (3-Mercaptopropyl)-trimethoxysilane in three concentrations 535, 1074, 1614 µmol/mL (100, 200, 300 µL of silane, respectively) was grafted onto cellulose, then the modified cellulose was characterized by FTIR spectroscopy as well as solid state 13C NMR and 29Si NMR spectroscopy. Increasing the concentration of the alkoxysilane from 353 to 1074 µmol/mL increased the ratio of siloxane bridges with the cellulose backbone, while by increasing the silane concentration from 1074 to 1614 µmol/mL, has inhanced the ratio of polysiloxane bridges relative to covalent links with the cellulose backbone from 34% to 66%.http://www.ijwp.ir/article_19849_6c4b92ada92917cdf78b2dab051f95fd.pdfCellulose modificationcellulose surface chemistrymicrocrystalline cellulosealkoxysilane chemistry(3-mercaptopropyl)-trimethoxysilane
collection DOAJ
language fas
format Article
sources DOAJ
author Fereshteh Fadavi
Ali Abdolkhani
Yahya Hamzeh
Hubert Hettegger
Thomas Rosenau
spellingShingle Fereshteh Fadavi
Ali Abdolkhani
Yahya Hamzeh
Hubert Hettegger
Thomas Rosenau
A novel method for cellulose modification in aqueous media via alkoxysilane chemistry
Iranian Journal of Wood and Paper Industries
Cellulose modification
cellulose surface chemistry
microcrystalline cellulose
alkoxysilane chemistry
(3-mercaptopropyl)-trimethoxysilane
author_facet Fereshteh Fadavi
Ali Abdolkhani
Yahya Hamzeh
Hubert Hettegger
Thomas Rosenau
author_sort Fereshteh Fadavi
title A novel method for cellulose modification in aqueous media via alkoxysilane chemistry
title_short A novel method for cellulose modification in aqueous media via alkoxysilane chemistry
title_full A novel method for cellulose modification in aqueous media via alkoxysilane chemistry
title_fullStr A novel method for cellulose modification in aqueous media via alkoxysilane chemistry
title_full_unstemmed A novel method for cellulose modification in aqueous media via alkoxysilane chemistry
title_sort novel method for cellulose modification in aqueous media via alkoxysilane chemistry
publisher Iranian Scientific Association of Wood and Paper Industries
series Iranian Journal of Wood and Paper Industries
issn 2008-9066
2423-3242
publishDate 2016-12-01
description Surface modification of cellulose, as the world’s most abundant polymer, plays an important role in sustainable chemistry. Microcrystalline cellulose, Avicel, was modified by an alkoxysilane under mild conditions in water, at room temperature and with a catalytic amount of sodium hydroxide. (3-Mercaptopropyl)-trimethoxysilane in three concentrations 535, 1074, 1614 µmol/mL (100, 200, 300 µL of silane, respectively) was grafted onto cellulose, then the modified cellulose was characterized by FTIR spectroscopy as well as solid state 13C NMR and 29Si NMR spectroscopy. Increasing the concentration of the alkoxysilane from 353 to 1074 µmol/mL increased the ratio of siloxane bridges with the cellulose backbone, while by increasing the silane concentration from 1074 to 1614 µmol/mL, has inhanced the ratio of polysiloxane bridges relative to covalent links with the cellulose backbone from 34% to 66%.
topic Cellulose modification
cellulose surface chemistry
microcrystalline cellulose
alkoxysilane chemistry
(3-mercaptopropyl)-trimethoxysilane
url http://www.ijwp.ir/article_19849_6c4b92ada92917cdf78b2dab051f95fd.pdf
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