These individual particles of cobalt oxide have been engineered to form a superlattice or 3D mesh structure to improve their chemical activity, explains Giorgio Divitini.
These individual particles of cobalt oxide have been engineered to form a superlattice or 3D mesh structure to improve their chemical activity, explains Giorgio Divitini.
I study what such structures look like, using state-of-the-art electron microscopes that allow individual atoms to be imaged and identified
Giorgio Divitini
"We are designing cobalt oxide assemblies at the nanoscale to improve their properties as a catalyst - a material that speeds up a reaction. We're using the material to produce hydrogen and oxygen from water, contributing to the development of new sources of fuel and energy.
Being able to make tailored structures at the nanoscale is very important for catalysis and has important applications in everyday life, from electricity generation to sensors and manufacturing processes.
In my research I study what such structures look like, using state-of-the-art electron microscopes that can push the limits of science, allowing individual atoms to be imaged and identified."
With thanks to Dr Caterina Ducati and to the ERC for funding under grant number 259619.
'Nanomaterials Up Close' is a special series linked to our 'Under the Microscope' collection of videos produced by Cambridge University that show glimpses of the natural and man-made world in stunning close-up.
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