Materials Formed by Combining Inorganic Glasses and Metal‐Organic Frameworks

Chemistry - A European Journal Wiley 28:38 (2022) e202200345

Authors:

Ashleigh M Chester, Celia Castillo‐Blas, Lothar Wondraczek, David A Keen, Thomas D Bennett

Orientational disorder in sulfur hexafluoride: a neutron total scattering and reverse Monte Carlo study

Journal of Physics: Condensed Matter IOP Publishing 34:29 (2022) 295401-295401

Authors:

Yinze Qin, Min Gao, Matthew G Tucker, David A Keen, Guanqun Cai, Anthony E Phillips, Martin T Dove, Shidong Zhang

Abstract:

Abstract The orientational disorder in crystalline sulfur hexafluoride, SF6, has been studied using a combination of neutron total scattering and the reverse Monte Carlo method. Analysis of the atomic configurations has shown the extent of the disorder through the evaluation of the S–F bond orientational distribution function, consistent with, but improving upon, the results of earlier neutron powder diffraction data. The correlations between orientations of neighbouring molecules have been studied through analysis of the distributions of F–F distances, showing that nearest-neighbour F–F close contacts are avoided, consistent with previous molecular dynamics simulation results. The results present a new case study of the application of neutron total scattering and the reverse Monte Carlo methods for the study of orientational disorder, where in this instance the disorder arises from orientational frustration rather than from a mismatch of molecular and site symmetries.

Correction to “From n- to p‑Type Material: Effect of Metal Ion on Charge Transport in Metal–Organic Materials”

ACS Applied Materials & Interfaces American Chemical Society (ACS) 14:16 (2022) 19079-19079

Authors:

Sungwon Yoon, A Alec Talin, Vitalie Stavila, Austin M Mroz, Thomas D Bennett, Yuping He, David A Keen, Christopher H Hendon, Mark D Allendorf, Monica C So

Multivariate analysis of disorder in metal–organic frameworks

Nature Communications Nature Research 13:1 (2022) 2173

Authors:

Adam F Sapnik, Irene Bechis, Alice M Bumstead, Timothy Johnson, Philip A Chater, David A Keen, Kim E Jelfs, Thomas D Bennett

Abstract:

The rational design of disordered frameworks is an appealing route to target functional materials. However, intentional realisation of such materials relies on our ability to readily characterise and quantify structural disorder. Here, we use multivariate analysis of pair distribution functions to fingerprint and quantify the disorder within a series of compositionally identical metal–organic frameworks, possessing different crystalline, disordered, and amorphous structures. We find this approach can provide powerful insight into the kinetics and mechanism of structural collapse that links these materials. Our methodology is also extended to a very different system, namely the melting of a zeolitic imidazolate framework, to demonstrate the potential generality of this approach across many areas of disordered structural chemistry.JM11106 EPSRC iCASE Fundin

Atomic-Spring-like Effect in Glassy Silica-Helium Composites

The Journal of Physical Chemistry C American Chemical Society (ACS) 126:12 (2022) 5722-5727

Authors:

Daniel T Bowron, David A Keen, Mathieu Kint, Coralie Weigel, Benoit Ruffle, Leszek Konczewicz, Sylvie Contreras, Benoit Coasne, Gaston Garbarino, Mickael Beaudhuin, Julien Haines, Jérôme Rouquette