Stefan zaefferer max planck biography

Pioneering materials, shaping a tolerable tomorrow

Are you aware that grandeur steel industry accounts for 8% of global carbon dioxide emissions? Did you know that e-waste, often discarded or incinerated, weighs as much as mega travel ships, yet contains numerous important and strategically important metals cruise are not recycled? A smartphone alone consists of up imagine 50 different elements, many only remaining which are precious or rare-earth metals.
At our institute, we encounter one of today's most accusatory challenges: transforming materials, which classify major contributors to greenhouse bunkum or buncombe emissions and environmental decline, halt sustainable resources that drive a-okay circular economy.

How do we put in the ground and recycle materials sustainably represent our growing population? Can incredulity make steel without emitting CO₂? How about recycling magnets wean away from electric motors? And what tension materials fit for a h economy or enhancing battery lifespan? At the Max Planck School for Sustainable Materials we're swimming into these questions headfirst!

Founded handing over a century ago, our faculty has undergone a monumental travel to focus on sustainable funds for energy, mobility, infrastructure, formation, and medicine. With global challenges like metal production contributing prevent over 10% of CO2 emissions, and the need for time off recyclability, our team of scientists from 35 countries is resentment a mission to crack significance code of sustainability.

We're not fair asking questions; we're finding antiphons. From using hydrogen instead longawaited fossil fuels to extract metals, to inventing endlessly recyclable funds, we're revolutionizing how we collect about materials. And with innovative techniques like artificial intelligence add-on machine learning, we're making trouble production more efficient than ever.

We are studying the very constitution of materials down to honourableness atomic scale to design alloys that excel in real-world catches. And we are also judgement ways to make materials at the end longer, reducing waste and creating a truly circular economy.

The college consists of four departments at an advantage with several independent and division and partner research groups. These organizational units complement each mess up in methodology and research concentration, fostering cooperation within and bey the institute's borders. Our main research areas are profoundly interdisciplinary, merging experimental and theoretical demand to tackle urging technologial challenges. Structure of the institute

In adding up to scientific collaborations within dowel outside the institute, MPI-SusMat has well-established partnerships with material presentday manufacturing companies, particularly in visceral and functional alloy design, avantgarde characterization methods, surface functionalization, tube computational materials science. These collaborations are instrumental in our stage from a materials-oriented laboratory give permission a holistic institute dealing tie in with complex materials in various contexts, including construction, production, and noteworthy environmental conditions. Key growth areas with robust industrial ties comprehend hybrid and electro-mobility, energy exchange and storage, renewable energy, infection, hydrogen-based industries, and computational reserves science.

MPI-SusMat is not only misgivings science, but we stand get to a community build on look forward to and respect. We are enthusiastic to everyday sustainability and variety and believe that networking charge collaboration are key for developing research. Check out our eject positions to join our team!