A nanoparticle’s size is fine-tuned to offer high-resolution images before and during surgical procedures.
Molecular interactions within gels and rubbers can be controlled to fabricate stronger and more elastic materials.
Materials inspired by the colour changes in a peacock’s feather could lead to anti-counterfeit and sensing applications.
Accurate measurements of crystalline deformation should help engineer stronger components for more energy-efficient turbines.
An artificial intelligence approach extracts how an aluminum alloy’s contents and manufacturing process are related to specific mechanical properties.
Scientists are looking for ways to make millions of molecule-sized robots swarm together so they can perform multiple tasks simultaneously.
From biomemory to implants, researchers are looking for ways to make more eco-friendly electronic components.
Controlling the organization of molecules within polymer membranes could lead to more efficient fuel cells.
Machine learning augments experimental and computational methods for cheaper predictions of material properties.
Materials with special electric properties can help promote bone’s natural healing processes.
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