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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.
Adding glucose to a green microalga culture induces accumulation of fatty acids and other valuable bioproducts.
Read more about Feeding Sugars to Algae Makes Them Fat
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.
Scientists catch details with atomic resolution, potentially helping design systems to use sunlight and water to produce fuels.
Read more about Atomic Snapshots of Photosynthesis
Molybdenum-based complex harvests light to make inert nitrogen gas reactive to potentially become part of fertilizer.
Optimized oxides made from common metals use less energy and show the potential of new design approach.
Far from being a mere spectator, solvents can play a larger role in chemical reactions, likely including those used in energy storage and biology.
Scientists determine the accuracy of computational methods used to study the sulfate radical approach to purifying water.
Particle crowding interferes with moving energy efficiently along promising molecular chains.
Hydrogel pores can modify the molecular-level motion of water and dissolved ions.
Researchers watch and measure in real time charge dynamics between layers of oxide materials, offering insights into solar cells.
