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The symmetrical light-gathering, energy-producing complex offers insights into how modern photosystems evolved.
An atomic view of how toxic uranium binds to iron minerals in the environment enables better predictions of its behavior.
Three types of water molecules form around a platinum-based ion, offering insights for waste processing and metal refining.
Scientists show metabolic tradeoffs result from a specific change to the grow-defend balance.
Research offers details on the chemistry of the trihydrogen ion.
Elegant theory shows how water helps separate ions involved in material synthesis and manufacturing.
Review highlights insights into coherence, which could help overcome roadblocks in next-generation energy systems.
Exploiting a strain-engineering approach could provide nanoscale light sources with a nonfluctuating emission wavelength for use in sensors, quantum communication, and imaging.
Ions at the edge of water, exposed to air, don’t separate like they do when surrounded by water, offering insights for desalination and corrosion.
Researchers link root water uptake to root traits and assess (poor) performance of common models.
A novel experimental geometry at the Linac Coherent Light Source reveals, for the first time, how silicon responds to shocks similar to those in a planet’s core.
The two most abundant elements in the universe, hydrogen and helium, were previously thought to be impossible to measure by X-ray photoelectron spectroscopy.
Read more about X-ray Spectroscopy of Hydrogen and Helium
