Volume 241, 2023
From the journal:

Faraday Discussions

Accurate extrinsic and intrinsic peak broadening modelling for time-resolved in situ ball milling reactions via synchrotron powder X-ray diffraction

Paolo P. Mazzeo, ORCID logo *ab   Giulio I. Lampronti, ORCID logo *c   Adam A. L. Michalchuk, ORCID logo d   Ana M. Belenguer, ORCID logo e   Alessia Bacchi ORCID logo ab  and  Franziska Emmerling ORCID logo d  

* Corresponding authors

a Department of Chemistry, Life Sciences and Environmental Sustainability, University of Parma, Parco Area Delle Scienze 17/A, Parma 43124, Italy
E-mail: paolopio.mazzeo@unipr.it

b Biopharmanet-TEC, University of Parma, Parco Area Delle Scienze 27/A, Parma 43124, Italy

c Department of Materials Science & Metallurgy, University of Cambridge, 27 Charles Babbage Rd, Cambridge CB3 0FS, UK
E-mail: gil21@cam.ac.uk

d BAM Federal Institute for Materials Research and Testing, Richard-Willstätter-Straße 11, D-12489 Berlin, Germany

e Yusuf Hamied Department of Chemistry, University of Cambridge, Lensfield Road, Cambridge CB2 1EW, UK

Abstract

The debate on the mechanisms which underpin mechanochemical reactions via ball mill grinding is still open. Our ability to accurately measure the microstructural (crystal size and microstrain) evolution of materials under milling conditions as well as their phase composition as a function of time is key to the in-depth understanding of the kinetics and driving forces of mechanochemical transformations. Furthermore, all ball milling reactions end with a steady state or milling equilibrium – represented by a specific phase composition and relative microstructure – that does not change as long as the milling conditions are maintained. The use of a standard sample is essential to determine the instrumental contribution to the X-ray powder diffraction (XRPD) peak broadening for time-resolved in situ (TRIS) monitoring of mechanochemical reactions under in operando conditions. Using TRIS-XRPD on a ball milling setup, coupled with low-energy synchrotron radiation, we investigated different data acquisition and analysis strategies on a silicon standard powder. The diffraction geometry and the microstructural evolution of the standard itself have been studied to model the instrumental contribution to XRPD peak broadening throughout the grinding activity. Previously proposed functions are here challenged and further developed. Importantly, we show that minor drifts of the jar position do not affect the instrumental resolution function significantly. We here report and discuss the results of such investigations and their application to TRIS-XRPD datasets of inorganic and organic ball mill grinding reactions.

Graphical abstract: Accurate extrinsic and intrinsic peak broadening modelling for time-resolved in situ ball milling reactions via synchrotron powder X-ray diffraction

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DOI
https://doi.org/10.1039/D2FD00104G
Article type
Paper
Submitted
16 May 2022
Accepted
12 Jul 2022
First published
12 Jul 2022

Faraday Discuss., 2023,241, 289-305

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Accurate extrinsic and intrinsic peak broadening modelling for time-resolved in situ ball milling reactions via synchrotron powder X-ray diffraction

P. P. Mazzeo, G. I. Lampronti, A. A. L. Michalchuk, A. M. Belenguer, A. Bacchi and F. Emmerling, Faraday Discuss., 2023, 241, 289 DOI: 10.1039/D2FD00104G

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