Cutting the Cost for Commercial Gas Purification – Theory Leads the Way for a Materials Solution
Novel material for purifying gases could significantly lower industrial energy costs.
Novel material for purifying gases could significantly lower industrial energy costs.
“One pot” catalyst converts up to 20% of dry biomass to a critical chemical used in biofuel production.
Biomechanical studies challenge current depictions of plant primary cell wall architecture.
Magnetic resonance imaging (MRI) method non-destructively images the chemical and structural changes in a lithium ion battery.
Antimony atoms with uncoordinated electrons block flow of heat in thermoelectric materials.
Short pulses of light reveal an intrinsic conducting surface that is different from the bulk.
A scalable catalytic process improves the yield of biofuels by 40%.
A single reversible catalyst enables energy to be both stored and released on demand.
New, scalable manufacturing technique grows metal oxide nanosheets with astronomical aspect-ratios, opening the door to intriguing material properties.
New insights into metal ions at an enzyme’s active site.
Arrays of superconducting islands open up the possibility for tailor-made properties and functionality.
Laboratory measurements of “carrier multiplication” verified in real solar energy photovoltaic devices made of tiny quantum dots.