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Probing the molecular level of polyimide-based solvent resistant nanofiltration membranes with positron annihilation spectroscopy

Angels Cano-Odena, Pieter Vandezande, Katrien Hendrix, Rolph Zaman, Khaled Mostafa Mohamed Mohamed Mohamed UGent, Werner Egger, Peter Sperr, Jérémie De Baerdemaeker UGent and Ivo F. J. Vankelecom (2009) Journal of Physical Chemistry B. 113(30). p.10170-10176
abstract
Positron annihilation spectroscopy (PAS) has been performed to link fundamental polymer properties to membrane performance, more specifically for polyimide (PI)-based solvent-resistant nanofiltration membranes. Laboratory-made membranes with well-known properties were applied first to define proper pretreatment conditions for the membrane to allow PAS-analysis and to allow more correct linking of PAS results to membrane properties. This knowledge was then applied to probe the structure of commercial PI-based Starmem membranes.
Please use this url to cite or link to this publication:
author
organization
year
type
journalArticle (original)
publication status
published
subject
journal title
Journal of Physical Chemistry B
J. Phys. Chem. B
volume
113
issue
30
pages
10170 - 10176
publisher
American Chemical Society
Web of Science type
Article
Web of Science id
000268231000020
JCR category
CHEMISTRY, PHYSICAL
JCR impact factor
3.471 (2009)
JCR rank
32/120 (2009)
JCR quartile
2 (2009)
ISSN
1520-6106
DOI
10.1021/jp9012653
language
English
UGent publication?
yes
classification
A1
id
798360
handle
http://hdl.handle.net/1854/LU-798360
date created
2009-12-03 09:30:31
date last changed
2009-12-16 14:53:52
@article{798360,
  abstract     = {Positron annihilation spectroscopy (PAS) has been performed to link fundamental polymer properties to membrane performance, more specifically for polyimide (PI)-based solvent-resistant nanofiltration membranes. Laboratory-made membranes with well-known properties were applied first to define proper pretreatment conditions for the membrane to allow PAS-analysis and to allow more correct linking of PAS results to membrane properties. This knowledge was then applied to probe the structure of commercial PI-based Starmem membranes.},
  author       = {Cano-Odena, Angels and Vandezande, Pieter and Hendrix, Katrien and Zaman, Rolph and Mostafa Mohamed Mohamed Mohamed, Khaled and Egger, Werner and Sperr, Peter and De Baerdemaeker, J{\'e}r{\'e}mie and Vankelecom, Ivo F. J.},
  issn         = {1520-6106},
  journal      = {Journal of Physical Chemistry B},
  language     = {eng},
  number       = {30},
  pages        = {10170--10176},
  publisher    = {American Chemical Society},
  title        = {Probing the molecular level of polyimide-based solvent resistant nanofiltration membranes with positron annihilation spectroscopy},
  url          = {http://dx.doi.org/10.1021/jp9012653},
  volume       = {113},
  year         = {2009},
}

Chicago
Cano-Odena, Angels, Pieter Vandezande, Katrien Hendrix, Rolph Zaman, Khaled Mostafa Mohamed Mohamed Mohamed, Werner Egger, Peter Sperr, Jérémie De Baerdemaeker, and Ivo F. J. Vankelecom. 2009. “Probing the Molecular Level of Polyimide-based Solvent Resistant Nanofiltration Membranes with Positron Annihilation Spectroscopy.” Journal of Physical Chemistry B 113 (30): 10170–10176.
APA
Cano-Odena, Angels, Vandezande, P., Hendrix, K., Zaman, R., Mostafa Mohamed Mohamed Mohamed, K., Egger, W., Sperr, P., et al. (2009). Probing the molecular level of polyimide-based solvent resistant nanofiltration membranes with positron annihilation spectroscopy. Journal of Physical Chemistry B, 113(30), 10170–10176.
Vancouver
1.
Cano-Odena A, Vandezande P, Hendrix K, Zaman R, Mostafa Mohamed Mohamed Mohamed K, Egger W, et al. Probing the molecular level of polyimide-based solvent resistant nanofiltration membranes with positron annihilation spectroscopy. Journal of Physical Chemistry B. American Chemical Society; 2009;113(30):10170–6.
MLA
Cano-Odena, Angels, Pieter Vandezande, Katrien Hendrix, et al. “Probing the Molecular Level of Polyimide-based Solvent Resistant Nanofiltration Membranes with Positron Annihilation Spectroscopy.” Journal of Physical Chemistry B 113.30 (2009): 10170–10176. Print.