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One of the biggest drawbacks of electric vehicles – that they require hours and hours to charge – could be obliterated by a new type of liquid battery that is roughly ten times more energy-dense than existing models, according to Professor Lee Cronin, the Regius Chair of Chemistry at the University of Glasgow, UK.
Originally from Gijón (Spain), Prof. Eva Hevia is Professor of Inorganic Chemistry at the University of Strathclyde, in Glasgow (UK). First an Erasmus student, then a recipient of both Marie Skłodowska-Curie and ERC grants, she believes that each of these three EU funding schemes has represented a milestone at different stages of her career and has paved the future of her research.
ERC grantee Alvaro Mata, from Queen Mary’s School of Engineering and Materials Science, has developed a new way to grow mineralised materials which could regenerate hard tissues such as dental enamel and bone. The findings are reported today in Nature Communications.
“The internet of things” is said to be the next big frontier for technology firms. A variety of small devices are always on and always connected. These devices permeate our lives at an ever increasing rate, bringing with them a demand for new and innovative mobile energy sources. One of the most promising candidates is thermoelectric power; a technology that would allow us to harvest one of the most ubiquitous energy sources available to us, our body heat.
The impact of migration on the economies of receiving countries is a fundamental question in economics. According to Prof. Christian Dustmann, current research is coming to different conclusions about the impact immigration has on wages and employment of native workers.
Ben Feringa is a Professor in Organic Chemistry at the University of Groningen and the pioneer of rotary molecular motors, the smallest machines in the world of the size of individual molecules.
In 2016, Prof Feringa was awarded the Nobel Prize in Chemistry for his work on synthetic chemistry, leading to the design and synthesis of novel molecules and nanomaterials, with machine-like functions. These molecular nanomachines can respond to stimuli from their environment, be employed in the self-assembly of nanostructures or regulate DNA transcription, with potential applications in the medical field and targeted treatments.
Originally published in March 2017 as part of the multimedia campaign "ERC - 10 years – 10 portraits."
Most of our actions can have an impact on the environment, be it minor, long-lasting or simply irreversible. But how can this effect be measured, avoided, predicted? What are the specificities of long-term risks and how can collective decisions be taken effectively to tackle those threats?
Faster, greener and more sustainable: our world is thirsty for innovative processes that meet these demanding criteria. While natural resources can offer part of the solution, the biggest challenge lies in cleaning-up chemical synthesis. Prof. Georgios Vasilikogiannakis and his team have been looking for answers.
As Europe continues to confront the consequences of the 2008 financial crisis it becomes ever-more important to fathom not only how Europe can return to productive levels of employment, but why it is failing to do so. Professor Pissarides’s ERC research examines both what kind of jobs Europeans do and future trends in employment. He will present his research to the public at TEDx Brussels event on 1 December.
At the École Polytechnique Fédérale de Lausanne (EPFL) in Switzerland, Professor Anna Fontcuberta i Morral’s ERC-funded UPCON project (Ultra-pure nanowire heterostructures and energy conversion) is investigating new concepts and technologies that point the way to the next generation of photovoltaic systems. Prof Fontcuberta i Morral is a speaker at this year's American Association for the Advancement of Science (AAAS) conference in Chicago, where she will give a talk entitled 'Nanowires have the power to revolutionize solar energy'.