A new catalyst design meets cost, activity, and durability goals by leveraging ultralow loadings of platinum with platinum-free supports.
New methods quiet noise and reduce error in measurements of elusive quantum properties
By mimicking biological machinery with non-biological parts, artificial cells work to convert light into chemical energy.
Layer-by-layer analysis uncovers microscopic mechanisms that affect thin film magnetism important to electronics.
New approach to studying ions more accurately predicts behavior, providing insights for biological systems, environmental processes, and materials development.
Controlled pulses of chemicals over a wide pressure range can link fundamental studies to practical performance, informing catalyst design.
Discovering hexokinase as an algal regulator of lipids and high-value antioxidants will enable sustainable sources of biofuels and bioproducts.
Researchers start pinning down how a fungal symbiont spurs growth of poplar, a potential biofuel feedstock.
Plant diversity, soil structure, and seasonality all influence microbial diversity in soil
Interplanetary particles offer insights into the chemistry of the cosmos.
Scientists image complex superstructures self-assembled from tetrahedral quantum dots, expanding our understanding of forming small, complex crystals.
Scientists discover a completely new atomic motion in a 2-D material.
