Flow-Xl: A new facility for the analysis of crystallization in flow systems

T. D. Turner, C. O'Shaughnessy, X. He, M. A. Levenstein, L. Hunter, J. Wojciechowski, H. Bristowe, R. Stone, C. C. Wilson, A. Florence, K. Robertson, N. Kapur, F. C. Meldrum

Research output: Contribution to journalArticlepeer-review

Abstract

Characterization of crystallization processes in situ is of great importance to furthering knowledge of how nucleation and growth processes direct the assembly of organic and inorganic materials in solution and, critically, understanding the influence that these processes have on the final physico-chemical properties of the resulting solid form. With careful specification and design, as demonstrated here, it is now possible to bring combined X-ray diffraction and Raman spectroscopy, coupled to a range of fully integrated segmented and continuous flow platforms, to the laboratory environment for in situ data acquisition for timescales of the order of seconds. The facility used here (Flow-Xl) houses a diffractometer with a micro-focus CuKα rotating anode X-ray source and a 2D hybrid photon-counting detector, together with a Raman spectrometer with 532 and 785nm lasers. An overview of the diffractometer and spectrometer setup is given, and current sample environments for flow crystallization are described. Commissioning experiments highlight the sensitivity of the two instruments for time-resolved in situ data collection of samples in flow. Finally, an example case study to monitor the batch crystallization of sodium sulfate from aqueous solution, by tracking both the solute and solution phase species as a function of time, highlights the applicability of such measurements in determining the kinetics associated with crystallization processes. This work illustrates that the Flow-Xl facility provides high-resolution time-resolved in situ structural phase information through diffraction data together with molecular-scale solution data through spectroscopy, which allows crystallization mechanisms and their associated kinetics to be analysed in a laboratory setting.

Original languageEnglish
Pages (from-to)1299-1310
Number of pages12
JournalJournal of Applied Crystallography
Volume57
Issue numberPart 5
DOIs
Publication statusPublished - 1 Oct 2024

Acknowledgements

The authors would like to thank Marcus Winter, Pierre Le Magueres and Mathias Meyer of Rigaku, Oleksandr O. Mykhaylyk and Cate O'Brien of the University of Sheffield, and Christopher Pask of the University of Leeds for helping us to perform the feasibility tests of flow-based in situ XRD and small-angle X-ray scattering analyses that led to the creation of Flow-Xl.

Keywords

  • crystal growth
  • crystal nucleation
  • flow systems
  • in situ characterization
  • polymorphic transformation
  • powder X-ray diffraction
  • Raman spectroscopy

ASJC Scopus subject areas

  • General Biochemistry,Genetics and Molecular Biology

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