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By creating a conversion process for recycling carbon dioxide into feedstock, the CO2Recycling project is paving the way towards a sustainable chemical industry.
Inspired by the country’s cloudy weather, an Irish researcher has developed a new way to increase the efficiency of solar panels – even in the event of overcast skies. With a grant from the European Research Council (ERC), the disruptive technology has increased the viability of effective solar energy collection in northern Europe. The potential of this innovation could be huge given Europe’s growing demand for cost-effective and sustainable energy solutions.
The BENELEX project conducted the first systematic evaluation of how international law can support the use of benefit-sharing as a tool for equitable change.
Quantifying the carbon storage potential of terrestrial ecosystems will have to take account of the relative contributions of photosynthesis and respiration to the global carbon cycle. The SOLCA project developed an ambitious approach to tackle this challenge.
A European bioengineer has pushed the boundaries of cell manipulation by pioneering a new, droplet-based method of study. His innovation, allowing for the highly detailed observation of cells, has resulted in the launch of a spin-off company as well as further research into cell cultures. Fuelled by a European Research Council (ERC) grant, the technology promises to open doors to new applications in pharmaceuticals, diagnostics and medical research.
The most powerful source of misperceptions about important issues such as immigration and climate change are false beliefs rooted in people’s political or social preferences, but having people who question authority is also important for a society, according to ERC grantee Jason Reifler, from the University of Exeter, UK.
An unexpected discovery by EU-funded researchers has opened up a new field of photovoltaic technology that promises a more efficient and economical way to convert solar energy into electrical power.
Quantum computers are the Holy Grail of information theorists. For years, scientists have been trying to crack their mysteries, to harvest their interesting applications. They are predicted to have tremendous computational power, exponentially larger than the computers available today. However, so far, they have been difficult to actually build. Prof. Ashley Montanaro will investigate the path from the theoretical foundations of quantum computing their applications to real-life problems.
The human brain is outstanding among mammalian brains, containing around 100 billion neurons (more than the number of stars in the Milky Way) and over 100 trillion connections between them. Yet, when it comes to making decisions, this impressive organ does not prevent us from making errors – even avoidable ones.