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Ever since observing a map of a marine landslide as a young geology student, Dr Aaron Micallef was hooked on the beauty of the sea floor. Now, he works on understanding the forces that shape the Earth’s landscapes, both above ground and below the sea level. His MARCAN project studies the impacts of groundwater on canyon formation in Malta and New Zealand. This investigation may reveal where we will be getting our drinking water in the future.
Imagine your favourite football team entering a stadium. An army of wireless cameras is following the players to give you the best possible view – of the whole pitch, of the chanting crowd, of each footballer, from the tip of his head to the grass blades he treads with his cleats. Thanks to Prof. Leif Oxenløwe’s research, this kind of wireless ultra-high definition television broadcasting can one day become a reality.
Malaria has always been the centre of attention for Dr Ali Salanti’s, a molecular parasitologist and an ERC grantee. With his studies, he hoped to bring new insight into pregnancy-associated malaria, to save the lives of women and their babies in areas affected by the disease. Now, Dr Salanti’s research has shifted to battling against another deadly disease: cancer. This comes after an unexpected discovery yielded ground-breaking results for the diagnosis and treatment of this illness. This is the kind of curiosity-driven research that can lead to ground-breaking serendipitous outcomes.
An international team of researchers, led by ERC grantee Prof Rune Linding, discovered how genetic cancer mutations attack the networks controlling human cells. This knowledge is critical for the future development of personalized precision cancer treatments.
Molecular electronics has raised increasing interest in recent years, in particular the use of molecules as nano-electrical components for electronic, photovoltaic and thermoelectric devices. With her ERC Starting grant, Dr Gemma Solomon studies how molecules carrying current heat up and cool down, potentially paving the way to new frontiers in power-generating materials.
Prof Seunghwan Lee's research project explores the lubrication mechanisms of mucins and mucus gels. He is interested in how systems perform and maintain themselves, with a particular emphasis on the effect of friction, and lubrication, on surface contact. He explained that "in everyday life we recognise that mucus is a slippery substance, but there is very little scientific literature, no systematic understanding of how and why it behaves as it does."©Seunghwan Lee