The browser you are using is not supported by this website. All versions of Internet Explorer are no longer supported, either by us or Microsoft (read more here: https://www.microsoft.com/en-us/microsoft-365/windows/end-of-ie-support).

Please use a modern browser to fully experience our website, such as the newest versions of Edge, Chrome, Firefox or Safari etc.

Runqing Yang. Portrait.

Runqing Yang

Doctoral student

Runqing Yang. Portrait.

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

Author

  • K. Nygård
  • S. A. McDonald
  • J. B. González
  • V. Haghighat
  • Christian Appel
  • E. Larsson
  • R. Ghanbari
  • M. Viljanen
  • José Silva
  • S. Malki
  • Y. Li
  • V. Silva
  • C. Weninger
  • F. Engelmann
  • T. Jeppsson
  • G. Felcsuti
  • Tomas Rosén
  • K. Gordeyeva
  • L.D. Söderberg
  • H. Dierks
  • Y. Zhang
  • Z. Yao
  • R. Yang
  • E. M. Asimakopoulou
  • J. K. Rogalinski
  • J. Wallentin
  • P. Villanueva-Perez
  • R. Krüger
  • T. Dreier
  • M. Bech
  • M. Liebi
  • M. Bek
  • R. Kádár
  • A. E. Terry
  • H. Tarawneh
  • P. Ilinski
  • Jimmy Malmqvist
  • Y. Cerenius
Show all

Summary, in English

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.

Department/s

  • MAX IV, ForMAX
  • MAX IV Laboratory
  • MAX IV, Mechanical design
  • Antigen Presentation
  • LINXS - Institute of advanced Neutron and X-ray Science
  • LUNARC, Centre for Scientific and Technical Computing at Lund University
  • Solid Mechanics
  • MAX IV, Electronics
  • MAX IV, Software
  • MAX IV, Scientific Data
  • MAX IV, Automation
  • MAX IV, Survey, Alignment & Mechanical stability
  • LU Profile Area: Light and Materials
  • Synchrotron Radiation Research
  • LTH Profile Area: Nanoscience and Semiconductor Technology
  • NanoLund: Centre for Nanoscience
  • LTH Profile Area: Photon Science and Technology
  • eSSENCE: The e-Science Collaboration
  • Medical Radiation Physics, Lund
  • LTH Profile Area: Engineering Health
  • X-ray Phase Contrast
  • MAX IV, CoSAXS
  • MAX IV, Diffraction and scattering
  • MAX IV, Insertion devices
  • MAX IV, BO
  • MAX IV, Radiation safety

Publishing year

2024-02-22

Language

English

Pages

363-377

Publication/Series

Journal of Synchrotron Radiation

Volume

31

Issue

Pt 2

Document type

Journal article

Publisher

International Union of Crystallography

Topic

  • Subatomic Physics

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

Status

Published

Research group

  • Antigen Presentation
  • X-ray Phase Contrast

ISBN/ISSN/Other

  • ISSN: 0909-0495