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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.
Maternal microbiota is crucial for the future health of a child. The transmission of microbes to offspring is a process that begins in the uterus and is influenced by the delivery method, breastfeeding and the mother’s diet. However, the mechanisms behind the protective role of maternal microbes on the baby’s health are not yet fully understood.
Honey bees are an important species for ecology and economy, but their population has shrank worryingly. Prof. Philipp Engel focuses on gut microbiota, a critical factor for bee health, to understand how it evolved and diversified over time. His study addresses timely questions about evolution, ecology, microbiology and could eventually contribute to new strategies for managing bee colonies’ health.
Multifunctional nanoparticles being developed by EU-funded researchers are set to revolutionise treatments for complex bone diseases, enabling novel therapies for hundreds of millions of people worldwide suffering from bone cancer, bacterial bone infections and osteoporosis.
We are all made of stardust! But what is cosmic dust and how is it made? An EU-funded project is recreating cosmic dust by simulating interstellar conditions in the laboratory and developing innovative processes that could lead to benefits for communication, transport and nanotechnology - boosting industry's competitiveness.
How does one infer the dynamics of a DNA minicircle in solution? How does one align the neuronal firing patterns of several neurons across individuals? These questions are intrinsically statistical, but nevertheless escape the traditional tools of statistics. The ComplexData project investigated such questions from a mathematical and an applied context.
Once limited to modelling physical problems in engineering, today Partial Differential Equations (PDEs) are used by a diverse array of fields, from natural resources to meteorology, aeronautics, oil and gas and biomedicine – to name only a few. But key mathematical issues remain unsolved, particularly when addressing their control, a must in technological transfer. The ERC-funded DYCON project aims to find answers.
Epithelial tissues cover all body surfaces and line most of our organs, internal cavities and passageways, including the digestive tract. Prof. Elena Martínez is engineering intestinal epithelial tissues that mimic the physiological characteristics of human intestinal tissue with the aim of advancing the in vitro modelling of diseases, the preclinical screening for drug efficacy and toxicity, and the understanding of organ development.
Originally published in May 2015
Updated in July 2018
With an aging population, Europe sees a rapid increase in the number of people affected by visual disorders requiring surgical intervention. Building on the recent advances in robotic assistance in surgery as well as in precisely targeted drug delivery therapies, Prof. Bradley Nelson has designed innovative microrobotics tools to overcome the particular difficulty of manual-performed eye surgery.
Over 500 dominant species identified in the first global atlas of world soil bacteria In cooperation with Universidad Rey Juan Carlos – URJC
An international team of researchers, including ERC grantee Fernando T. Maestre from Universidad Rey Juan Carlos (URJC), pieced together a global atlas of soil bacteria. The study, published today in Science, identifies some five hundred species of dominant bacteria living in soils worldwide. The findings, based on EU-funded research, could open new paths to improve soil fertility and increase agricultural production.