Modelling and validation of particle size distributions of supported nanoparticles using the pair distribution function technique

Abstract: The particle size of supported catalysts is a key characteristic for determining structure-property relationships. It is a challenge to obtain this information accurately and in situ using crystallographic methods owing to the small size of such particles (<5 nm) and the fact that they are supported. In this work, the pair distribution function (PDF) technique was used to obtain the particle size distribution of supported Pt catalysts as they grow under typical synthesis conditions. The PDF of Pt nanoparticles… Show more

“…The envelope function corresponds to a particular particle shape which is usually assumed to be spherical, but can be introduced to reect many shapes and size distributions. 63,64 While this method is conceptually similar to Q-space Rietveld renements, modelling the real-space PDF allows analysis of the structure in e.g. very small nanoparticles, where the peak broadening challenges conventional Rietveld renements in Q-space.…”

There's no place like real-space: elucidating size-dependent atomic structure of nanomaterials using pair distribution function analysis

“…The envelope function corresponds to a particular particle shape which is usually assumed to be spherical, but can be introduced to reect many shapes and size distributions. 63,64 While this method is conceptually similar to Q-space Rietveld renements, modelling the real-space PDF allows analysis of the structure in e.g. very small nanoparticles, where the peak broadening challenges conventional Rietveld renements in Q-space.…”

There's no place like real-space: elucidating size-dependent atomic structure of nanomaterials using pair distribution function analysis

“…This behavior contrasts conventional nanoparticle growth, where higher synthesis temperatures regularly correspond to larger particles. 27,44,50,51 Sharper peaks are present in the final product for MWR-grown samples. (B) PDF data, G(r), for the same datasets as in (A).…”

In situsynchrotron pair distribution function analysis to monitor synthetic pathways under electromagnetic excitation

“…TPU-30 shows a more gradual signal damping which extends to much longer distances, as it has both larger and more anisotropic hard regions and crystallites. 49 − 52 TPU-06 is intermediate to the other two samples, with a larger concentration of well ordered, isotropic hard regions and a small population with larger dimensions. The increased HSC has previously been shown to increase the amount of light-colored regions and the distinction between light/dark regions, indicating a decrease in interfacial thickness that is consistent with what is currently observed for the TPU samples here.…”

Cross-examining Polyurethane Nanodomain Formation and Internal Structure