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Investigating Materials that Can Go the Distance in Fusion Reactors
A test of titanium diboride opens the door to a potential new class of materials for fusion reactor applications.
A test of titanium diboride opens the door to a potential new class of materials for fusion reactor applications.
Redefining the mechanisms of stress corrosion cracking for materials in energy generation and industrial systems.
Simple fluid-driven nanoparticle catch-and-release process directs repair of cracks with debris from the damage.
For the first time, an international team of scientists has discovered the true origin of sodium salt in pristine Amazon air.
Some cells stand firm against techniques to extract the biological material inside, while others don’t stand a chance.
The number of copies of genes a poplar tree has influences its traits.
Across ecosystems, microbial traits are preserved along lineages, much like in multicellular organisms, and can improve the development of soil models and more.
Read more about Microbial Evolution: Nature Leads, Nurture SupportsUltrafast X-rays track how associated pairs of atoms find new locations when triggered by light.
Low-power ultraviolet light manipulation of superconductivity may lead to next-generation quantum devices.
Built with detector technologies used in nuclear physics experiments, the system monitors radiation treatments in hard-to-reach areas.
Penetrating X-ray mapping technique measures atomic character of crack propagation, which could lead to tougher metals.
A new path is identified to keep lithium in its place during battery discharge, benefitting efforts to design better energy storage options.