Stepwise collapse of a giant pore metal–organic framework

Dalton Transactions Royal Society of Chemistry 50:14 (2021) 5011-5022

Authors:

Adam F Sapnik, Duncan N Johnstone, Sean M Collins, Giorgio Divitini, Alice M Bumstead, Christopher W Ashling, Philip A Chater, Dean S Keeble, Timothy Johnson, David A Keen, Thomas D Bennett

Abstract:

Defect engineering is a powerful tool that can be used to tailor the properties of metal–organic frameworks (MOFs). Here, we incorporate defects through ball milling to systematically vary the porosity of the giant pore MOF, MIL-100 (Fe). We show that milling leads to the breaking of metal–linker bonds, generating additional coordinatively unsaturated metal sites, and ultimately causes amorphisation. Pair distribution function analysis shows the hierarchical local structure is partially retained, even in the amorphised material. We find that solvents can be used to stabilise the MIL-100 (Fe) framework against collapse, which leads to a substantial retention of porosity over the non-stabilised material

Mixed hierarchical local structure in a disordered metal–organic framework

Nature Communications Nature Research 12:1 (2021) 2062

Authors:

Adam F Sapnik, Irene Bechis, Sean M Collins, Duncan N Johnstone, Giorgio Divitini, Andrew J Smith, Philip A Chater, Matthew A Addicoat, Timothy Johnson, David A Keen, Kim E Jelfs, Thomas D Bennett

Abstract:

This three-year Ph.D. research project is the result of the collaboration among the research group of Prof. Guido Ennas from University of Cagliari (Italy), expert in innovative and green synthesis approaches of micro- and nanomaterials, including mechanochemistry and sonochemistry, and the research group of Dr. Sarah Hudson from University of Limerick (Ireland), expert in biocatalysts and drug-delivery systems. The research focuses on the development of innovative synthesis routes for the preparation of proteins/enzymes – Metal Organic Frameworks (MOFs) hybrid composite materials for biomedical applications. In particular, alternative sonochemical and mechanochemical methods have been explored for the one-pot synthesis of glucose oxidase – iron(III) trimesate composites under eco- and bio-compatible conditions. Conventional harsh synthesis conditions have been overcome in order to minimise enzyme denaturation and activity loss, while retaining structural and textural features of the MOF. Beside their biocompatibility and low cost, one of the advantages of using iron(III) trimesate materials to immobilise biomolecules is their peroxidase-mimic behaviour. Indeed, such MOFs do not act as passive supports for the immobilisation of glucose oxidase, but also perform as enzyme-mimics, avoiding the immobilisation of additional peroxidase enzymes. Hybrid glucose oxidase – iron(III) trimesate composites prepared via mechanochemical and sonochemical approaches under mild conditions were applied as sensitive biosensors for glucose colorimetric detection

Advantages of a curved image plate for rapid laboratory-based x-ray total scattering measurements: Application to pair distribution function analysis

Review of Scientific Instruments AIP Publishing 92:4 (2021) 043107

Authors:

Daniel JM Irving, David A Keen, Mark E Light

Charge Condensation and Lattice Coupling Drives Stripe Formation in Nickelates

(2021)

Authors:

Y Shen, G Fabbris, H Miao, Y Cao, D Meyers, DG Mazzone, T Assefa, XM Chen, K Kisslinger, D Prabhakaran, AT Boothroyd, JM Tranquada, W Hu, AM Barbour, SB Wilkins, C Mazzoli, IK Robinson, MPM Dean

Monopole density and antiferromagnetic domain control in spin-ice iridates

(2021)

Authors:

MJ Pearce, K Götze, A Szabó, TS Sikkenk, MR Lees, AT Boothroyd, D Prabhakaran, C Castelnovo, PA Goddard