Modification of crystallinity and pore size distribution in coagulated cellulose films

Modification of crystallinity and pore size distribution in coagulated cellulose films

In this study the effects of altering the coagulation medium during regeneration of cellulose dissolved in the ionic liquid 1-ethyl-3-methylimidazolium acetate, were investigated using solid-state NMR spectroscopy and NMR cryoporometry. In addition, the influence of drying procedure on the structure...

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Published in:Cellulose (London) Vol. 20; no. 4; pp. 1657 - 1667
Main Authors: Östlund, Åsa, Idström, Alexander, Olsson, Carina, Larsson, Per Tomas, Nordstierna, Lars
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 2013
Springer Nature B.V
Subjects:
Alcohols
Bioorganic Chemistry
Cellulose
Ceramics
Chemistry
Chemistry and Materials Science
Coagulants
Coagulation
Composites
Cryoporometry
Crystal structure
Crystallinity
Drying
Glass
Ionic liquids
Natural Materials
NMR cryoporometry
NMR spectroscopy
Organic Chemistry
Original Paper
Physical Chemistry
Polarity
Polymer Sciences
Pore size
Pore size distribution
Porosity
Regenerated cellulose
Regeneration
Solid state
Solid-state NMR
Sustainable Development
NMR cryoporometry
Solid-state NMR
Crystallinity
Porosity
Regenerated cellulose
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Abstract In this study the effects of altering the coagulation medium during regeneration of cellulose dissolved in the ionic liquid 1-ethyl-3-methylimidazolium acetate, were investigated using solid-state NMR spectroscopy and NMR cryoporometry. In addition, the influence of drying procedure on the structure of regenerated cellulose was studied. Complete conversion of the starting material into regenerated cellulose was seen regardless of the choice of coagulation medium. Coagulation in water predominantly formed cellulose II, whereas coagulation in alcohols mainly generated non-crystalline structures. Subsequent drying of the regenerated cellulose films, induced hornification effects in the form of irreversible aggregation. This was indicated by solid-state NMR as an increase in signal intensity originating from crystalline structures accompanied by a decrease of signal intensity originating from cellulose surfaces. This phenomenon was observed for all used coagulants in this study, but to various degrees with regard to the polarity of the coagulant. From NMR cryoporometry, it was concluded that drying induced hornification generates an increase of nano-sized pores. A bimodal pore size distribution with pore radius maxima of a few nanometers was observed, and this pattern increased as a function of drying. Additionally, cyclic drying and rewetting generated a narrow monomodal pore size pattern. This study implies that the porosity and crystallinity of regenerated cellulose can be manipulated by the choice of drying condition.
AbstractList In this study the effects of altering the coagulation medium during regeneration of cellulose dissolved in the ionic liquid 1-ethyl-3-methylimidazolium acetate, were investigated using solid-state NMR spectroscopy and NMR cryoporometry. In addition, the influence of drying procedure on the structure of regenerated cellulose was studied. Complete conversion of the starting material into regenerated cellulose was seen regardless of the choice of coagulation medium. Coagulation in water predominantly formed cellulose II, whereas coagulation in alcohols mainly generated non-crystalline structures. Subsequent drying of the regenerated cellulose films, induced hornification effects in the form of irreversible aggregation. This was indicated by solid-state NMR as an increase in signal intensity originating from crystalline structures accompanied by a decrease of signal intensity originating from cellulose surfaces. This phenomenon was observed for all used coagulants in this study, but to various degrees with regard to the polarity of the coagulant. From NMR cryoporometry, it was concluded that drying induced hornification generates an increase of nano-sized pores. A bimodal pore size distribution with pore radius maxima of a few nanometers was observed, and this pattern increased as a function of drying. Additionally, cyclic drying and rewetting generated a narrow monomodal pore size pattern. This study implies that the porosity and crystallinity of regenerated cellulose can be manipulated by the choice of drying condition.
Author Nordstierna, Lars
Östlund, Åsa
Idström, Alexander
Larsson, Per Tomas
Olsson, Carina
Author_xml – sequence: 1
  givenname: Åsa
  surname: Östlund
  fullname: Östlund, Åsa
  email: asa.ostlund@chalmers.se
  organization: Applied Surface Chemistry, Chalmers University of Technology
– sequence: 2
  givenname: Alexander
  surname: Idström
  fullname: Idström, Alexander
  organization: Applied Surface Chemistry, Chalmers University of Technology
– sequence: 3
  givenname: Carina
  surname: Olsson
  fullname: Olsson, Carina
  organization: Organic Chemistry, Chalmers University of Technology
– sequence: 4
  givenname: Per Tomas
  surname: Larsson
  fullname: Larsson, Per Tomas
  organization: Innventia AB, Wallenberg Wood Science Center, KTH Royal Institute of Technology
– sequence: 5
  givenname: Lars
  surname: Nordstierna
  fullname: Nordstierna, Lars
  organization: Applied Surface Chemistry, Chalmers University of Technology
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Issue 4
Keywords NMR cryoporometry
Solid-state NMR
Crystallinity
Porosity
Regenerated cellulose
Language English
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Snippet In this study the effects of altering the coagulation medium during regeneration of cellulose dissolved in the ionic liquid 1-ethyl-3-methylimidazolium...
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proquest
crossref
springer
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StartPage 1657
SubjectTerms Alcohols
Bioorganic Chemistry
Cellulose
Ceramics
Chemistry
Chemistry and Materials Science
Coagulants
Coagulation
Composites
Cryoporometry
Crystal structure
Crystallinity
Drying
Glass
Ionic liquids
Natural Materials
NMR cryoporometry
NMR spectroscopy
Organic Chemistry
Original Paper
Physical Chemistry
Polarity
Polymer Sciences
Pore size
Pore size distribution
Porosity
Regenerated cellulose
Regeneration
Solid state
Solid-state NMR
Sustainable Development
Title Modification of crystallinity and pore size distribution in coagulated cellulose films
URI https://link.springer.com/article/10.1007/s10570-013-9982-7
https://www.proquest.com/docview/2259909372
https://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-132213
https://urn.kb.se/resolve?urn=urn:nbn:se:ri:diva-9779
https://research.chalmers.se/publication/182842
Volume 20
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