![c3bio-mccann-furfural-large.jpg Selective hydrolysis and conversion of biomass hemicellulose to furfural](/-/media/bes/images/highlights/2012/02/c3bio-mccann-furfural-large.jpg?h=520&w=850&la=en&hash=2ABB362AF8E27700C8241D5799F255229772423AF005390F89B5EAB6306829E2)
“One Pot” Recipe for Biofuels
“One pot” catalyst converts up to 20% of dry biomass to a critical chemical used in biofuel production.
“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.