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A targeted and personalised method for triggering the body’s immune response could transform how we treat cancer. Thanks to a grant from the European Research Council (ERC), an inspired idea has been developed in the lab and turned into a ground-breaking commercial opportunity.
By creating a conversion process for recycling carbon dioxide into feedstock, the CO2Recycling project is paving the way towards a sustainable chemical industry.
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.
Two volunteers are the first above-knee amputees in the world to feel their prosthetic foot and knee in real time. Their bionic prosthesis, developed by a European team of researchers, has sensors that connect to residual nerves in the thigh. The resulting neurofeedback reduces physical and mental strain for prosthesis users as well as their phantom limb pain. They can also walk faster and with more confidence. Researchers, partly supported by ERC funds, recently reported on their achievement in Nature Medicine.
ERC grantee Juergen Brugger and his team have developed biodegradable microresonators that can be heated locally with a wireless system. Doctors could soon be using them in implants to control the release of painkillers within tissue. By Laure-Anne Pessina - Originally published on the EPFL website
New families of proteins and enzymes will enable the development of novel plant-based biomaterials, potentially providing viable sustainable and renewable alternatives to plastics and other fossil-fuel-derived materials and chemicals.
On a clear summer night, look up to the sky and what do you see? Ordinary matter such as planets, stars maybe even an asteroid. Millions of little specks, as far as the eyes can reach. This ordinary matter, also known as baryonic matter, is the primary observable component of our universe. But is what we see all that is out there?
How can we develop new materials that meet the extreme challenges of aerospace applications? Seizing the great potential of magnesium as a lightweight metal or making steels more resistant to failure and corrosion are two engineering challenges whose roots lie deep down at the atomic scale. Using models that bridge across scales from the atomic to the observable level, an ERC funded scientist investigates why materials behave and fail the way they do.
Microwaves are widely employed in the technologies we use in our daily life - from global navigation systems (like GPS or Galileo), to the satellites used for the weather forecast. They are also important for more ambitious endeavors such as space navigation. The work of Prof. Yanne Chembo has contributed to the next generation of microwaves.