Order in cellulosics: Historical review of crystal structure research on cellulose

The structure determination of cellulose represents a significant part in the history of polymer science. On one side, cellulose as a natural and renewable material has valuable physical properties which can be improved with detailed knowledge of the structure. On the other side, it is produced by n...

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Published inCarbohydrate polymers Vol. 254; p. 117417
Main Author Peter, Zugenmaier
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 15.02.2021
Subjects
Boehmeria - chemistry
Carbohydrate Conformation
Cellulose
Cellulose - chemistry
cotton
crystal structure
Crystallization
Diffraction
Gossypium - chemistry
Hydrolysis
Plant Extracts - chemistry
Polymer fibers
polymers
ramie
Structure
Wood - chemistry
X-Ray Diffraction
Diffraction
Structure
Polymer fibers
Cellulose
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Abstract The structure determination of cellulose represents a significant part in the history of polymer science. On one side, cellulose as a natural and renewable material has valuable physical properties which can be improved with detailed knowledge of the structure. On the other side, it is produced by nature as fibers, e.g. ramie, cotton etc., most suitable for structural studies by X-ray diffraction after their discovery in 1912 and was regarded by scientists as predestined for such an undertaking. The progress utilizing appropriate methods and models will be pursued in this investigation from the beginning of the structural research in 1913 till the proposal of realistic structures of cellulose in the 1970s. Different basic units of the crystal structure are discussed. Many structural models for native cellulose have been suggested over times with parallel or antiparallel running chains in the fibers and supported or abandoned. In this historical review on order in cellulosics, the crystal structure research throughout the times will be critically evaluated and the improvements in experiments and methods discussed. This subject is not restricted to cellulose rather can be extended to further polymer fibers.
AbstractList The structure determination of cellulose represents a significant part in the history of polymer science. On one side, cellulose as a natural and renewable material has valuable physical properties which can be improved with detailed knowledge of the structure. On the other side, it is produced by nature as fibers, e.g. ramie, cotton etc., most suitable for structural studies by X-ray diffraction after their discovery in 1912 and was regarded by scientists as predestined for such an undertaking. The progress utilizing appropriate methods and models will be pursued in this investigation from the beginning of the structural research in 1913 till the proposal of realistic structures of cellulose in the 1970s. Different basic units of the crystal structure are discussed. Many structural models for native cellulose have been suggested over times with parallel or antiparallel running chains in the fibers and supported or abandoned. In this historical review on order in cellulosics, the crystal structure research throughout the times will be critically evaluated and the improvements in experiments and methods discussed. This subject is not restricted to cellulose rather can be extended to further polymer fibers.
The structure determination of cellulose represents a significant part in the history of polymer science. On one side, cellulose as a natural and renewable material has valuable physical properties which can be improved with detailed knowledge of the structure. On the other side, it is produced by nature as fibers, e.g. ramie, cotton etc., most suitable for structural studies by X-ray diffraction after their discovery in 1912 and was regarded by scientists as predestined for such an undertaking. The progress utilizing appropriate methods and models will be pursued in this investigation from the beginning of the structural research in 1913 till the proposal of realistic structures of cellulose in the 1970s. Different basic units of the crystal structure are discussed. Many structural models for native cellulose have been suggested over times with parallel or antiparallel running chains in the fibers and supported or abandoned. In this historical review on order in cellulosics, the crystal structure research throughout the times will be critically evaluated and the improvements in experiments and methods discussed. This subject is not restricted to cellulose rather can be extended to further polymer fibers.The structure determination of cellulose represents a significant part in the history of polymer science. On one side, cellulose as a natural and renewable material has valuable physical properties which can be improved with detailed knowledge of the structure. On the other side, it is produced by nature as fibers, e.g. ramie, cotton etc., most suitable for structural studies by X-ray diffraction after their discovery in 1912 and was regarded by scientists as predestined for such an undertaking. The progress utilizing appropriate methods and models will be pursued in this investigation from the beginning of the structural research in 1913 till the proposal of realistic structures of cellulose in the 1970s. Different basic units of the crystal structure are discussed. Many structural models for native cellulose have been suggested over times with parallel or antiparallel running chains in the fibers and supported or abandoned. In this historical review on order in cellulosics, the crystal structure research throughout the times will be critically evaluated and the improvements in experiments and methods discussed. This subject is not restricted to cellulose rather can be extended to further polymer fibers.
ArticleNumber 117417
Author Peter, Zugenmaier
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  organization: Institute of Physical Chemistry TU Clausthal, D-38678 Claushal-Zellerfeld, Germany
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Keywords Diffraction
Structure
Polymer fibers
Cellulose
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Snippet The structure determination of cellulose represents a significant part in the history of polymer science. On one side, cellulose as a natural and renewable...
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SubjectTerms Boehmeria - chemistry
Carbohydrate Conformation
Cellulose
Cellulose - chemistry
cotton
crystal structure
Crystallization
Diffraction
Gossypium - chemistry
Hydrolysis
Plant Extracts - chemistry
Polymer fibers
polymers
ramie
Structure
Wood - chemistry
X-Ray Diffraction
Title Order in cellulosics: Historical review of crystal structure research on cellulose
URI https://dx.doi.org/10.1016/j.carbpol.2020.117417
https://www.ncbi.nlm.nih.gov/pubmed/33357901
https://www.proquest.com/docview/2473407726
https://www.proquest.com/docview/2636389662
Volume 254
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