Mary Ryan is currently Professor of Materials Science and Nanotechnology, and Vice-Dean for Research in the Faculty of Engineering. She joined Imperial in 1998 from Brookhaven National Laboratory in the US where she was assistant scientist in the Materials-Environment Interactions Group. She graduated from Manchester University with a Joint Honours degree in Mathematics and Physics and was then awarded a PhD in Materials Science carrying out early work with in situ electrochemical STM to study passivation phenomena in binary alloy systems.
Mary leads a large interdisciplinary group focused on understanding nanoscale materials, and nanoscale interfaces in and between materials and their environments. She has a particular interest in the development of operando approaches and has pioneered nanoscale methods in synchrotron science.
Her research spans diverse application areas including: energy materials (batteries, magnetocaloric cooling devices, photovoltaics, fuel cells and catalysis); nanomaterials for bio-sensors and therapies; the mechanisms that lead to human and environmental toxicity associated with nanostructures, and the potential of nanomaterials for environmental remediation (in particular for nuclear waste). A key aspect of this work is understanding the reactivity and stability of nanostructures in operando in order to maximize efficiency and lifetime of devices and systems.
She was elected Fellow of the Royal Academy of Engineering in 2015 and is a Fellow IoM3and of the Institute of Corrosion.
et al., 2012, The Crystalline Structure of Copper Phthalocyanine Films on ZnO(1(1)over-bar00), Journal of the American Chemical Society, Vol:134, ISSN:0002-7863, Pages:14302-14305
et al., 2012, Electrolytic Hydriding of LaFe13-xSix Alloys for Energy Efficient Magnetic Cooling, Advanced Materials, Vol:24, ISSN:0935-9648, Pages:2042-2046
et al., 2011, Polypeptide Folding-Mediated Tuning of the Optical and Structural Properties of Gold Nanoparticle Assemblies, Nano Letters, Vol:11, ISSN:1530-6984, Pages:5564-5573
et al., 2008, Particle size effect of hydrogen-induced lattice expansion of palladium nanoclusters, Physical Review B, Vol:78, ISSN:2469-9950