Max Planck Institute for Sustainable Materials
Are you aware that steel production contributes to 8% of global carbon dioxide emissions? And imagine that the average lifetime of a smartphone is only 3 years, despite comprising up to 50 different elements, many of which are precious or rare-earth metals that are frequently left unrecycled.
We are tackling one of today's most pressing challenges: transforming #materials , which are major contributors to greenhouse gas emissions and environmental decline, into #sustainable resources that drive a truly #circular economy. We delve into the very structure of materials, crafting alloys that excel in real-world conditions. Through employing advanced techniques like artificial intelligence & machine learning, we are revolutionizing material production.
Imprint:
Max-Planck-Institut für Eisenforschung GmbH (soon: ..für Nachhaltige Materialien GmbH)
Max-Planck-Str. 1
40237 Düsseldorf
+49 (211) 6792 - 0
https://www.mpie.de/impressum
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What happens when hydrogen enters a metal?
Predicting sustainable materials with machine learning
100 Years of History and an exciting Future ahead!
What does sustainability mean to you?
How is your work related to sustainability?
What is it like to work at MPIE?
Turning toxic waste into green steel
Embracing Hydrogen Safely: Paving the Way to a Carbon-Free Industry
Ammonia: Bringing hydrogen to the green steel plant
How does hydrogen behave in aluminum alloys?
Robot microscopy
Computational materials science
Fueling the green economy: Hydrogen production
Reducing the biggest industry emissions: Green steel
What happens in material imperfections at the atomic level?
How Do Electrochemical Reactions Work At The Quantum Level?
How Do Alloying Elements Behave at the Grain Boundary?
Efficient Energy Production with Hydrogen Fuel Cells: Finding the Right Catalysts
Sustainable Metals for a Circular Economy
How does hydrogen affect the mechanical behavior of metals and alloys?
Hydrogen Detection at High Spatial Resolution and Sensitivity by Michael Rohwerder
Materials for Energy Application by Christina Scheu
Nano- and Micromechanics of Materials by James Best and Hariprasad Gopalan
Machine Learning of Defects in Laves Phases by Tilmann Hickel and Christoph Freysoldt
Corrosion at the Quantum Level by Mira Todorova and Sudarsan Surendralal
Atom Probe of Frozen Liquids by Baptiste Gault and Ayman El-Zoka
Join us at the MPIE!
Spotlight on "Computational Sustainable Metallurgy"
What are the Physical Foundations and Basic Challenges in Sustainable Metallurgy ?
Short Stories from the Lab: A fully automated 3D microstructure characterization system