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ForMAX – a beamline for multiscale and multimodal structural characterization of hierarchical materials

Nygård, K. LU ; McDonald, S. A. LU ; González, J. B. LU ; Haghighat, V. LU ; Appel, Christian ; Larsson, E. LU ; Ghanbari, R. LU ; Viljanen, M. LU ; Silva, José and Malki, S. LU , et al. (2024) In Journal of Synchrotron Radiation 31(Pt 2). p.363-377
Abstract

The ForMAX beamline at the MAX IV Laboratory provides multiscale and multimodal structural characterization of hierarchical materials in the nanometre to millimetre range by combining small- and wide-angle X-ray scattering with full-field microtomography. The modular design of the beamline is optimized for easy switching between different experimental modalities. The beamline has a special focus on the development of novel fibrous materials from forest resources, but it is also well suited for studies within, for example, food science and biomedical research.

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organization
publishing date
type
Contribution to journal
publication status
published
subject
keywords
fibrous materials, full-field X-ray microtomography, hierarchical materials, multimodal structural characterization, multiscale structural characterization, small-angle X-ray scattering, wide-angle X-ray scattering
in
Journal of Synchrotron Radiation
volume
31
issue
Pt 2
pages
15 pages
publisher
International Union of Crystallography
external identifiers
  • pmid:38386565
  • scopus:85186960905
ISSN
0909-0495
DOI
10.1107/S1600577524001048
language
English
LU publication?
yes
additional info
Publisher Copyright: © 2024 International Union of Crystallography. All rights reserved.
id
b98c93ce-ce57-4abd-a26f-f671e2a6dcc6
date added to LUP
2024-03-18 13:11:40
date last changed
2024-04-15 10:33:06
@article{b98c93ce-ce57-4abd-a26f-f671e2a6dcc6,
  abstract     = {{<p>The ForMAX beamline at the MAX IV Laboratory provides multiscale and multimodal structural characterization of hierarchical materials in the nanometre to millimetre range by combining small- and wide-angle X-ray scattering with full-field microtomography. The modular design of the beamline is optimized for easy switching between different experimental modalities. The beamline has a special focus on the development of novel fibrous materials from forest resources, but it is also well suited for studies within, for example, food science and biomedical research.</p>}},
  author       = {{Nygård, K. and McDonald, S. A. and González, J. B. and Haghighat, V. and Appel, Christian and Larsson, E. and Ghanbari, R. and Viljanen, M. and Silva, José and Malki, S. and Li, Y. and Silva, V. and Weninger, C. and Engelmann, F. and Jeppsson, T. and Felcsuti, G. and Rosén, Tomas and Gordeyeva, K. and Söderberg, L.D. and Dierks, H. and Zhang, Y. and Yao, Z. and Yang, R. and Asimakopoulou, E. M. and Rogalinski, J. K. and Wallentin, J. and Villanueva-Perez, P. and Krüger, R. and Dreier, T. and Bech, M. and Liebi, M. and Bek, M. and Kádár, R. and Terry, A. E. and Tarawneh, H. and Ilinski, P. and Malmqvist, Jimmy and Cerenius, Y.}},
  issn         = {{0909-0495}},
  keywords     = {{fibrous materials; full-field X-ray microtomography; hierarchical materials; multimodal structural characterization; multiscale structural characterization; small-angle X-ray scattering; wide-angle X-ray scattering}},
  language     = {{eng}},
  month        = {{02}},
  number       = {{Pt 2}},
  pages        = {{363--377}},
  publisher    = {{International Union of Crystallography}},
  series       = {{Journal of Synchrotron Radiation}},
  title        = {{ForMAX – a beamline for multiscale and multimodal structural characterization of hierarchical materials}},
  url          = {{http://dx.doi.org/10.1107/S1600577524001048}},
  doi          = {{10.1107/S1600577524001048}},
  volume       = {{31}},
  year         = {{2024}},
}