Working at the Molecular Foundry, Berkeley Lab researchers used their “Campanile” nano-optical probe to make some surprising discoveries about molybdenum disulfide, a member of the “transition metal dichalcogenides (TMDCs) semiconductor family whose optoelectronic properties hold great promise for future nanoelectronic and photonic devices.
A multi-institutional team of researchers, including scientists from Berkeley Lab, have used a new scanning electron microscopy technique to resolve the unique atomic structure at the surface of a material. This new technique holds promise for the study of catalysis, corrosion and other critical chemical reactions.
Earlier this year, Berkeley Lab’s Molecular Foundry got a new suite of robotic synthesis tools called the Overture and the Symphony X (pictured above), automated chemical synthesizers that assemble custom molecular structures called peptoids. Peptoid nanostructures, pioneered at Berkeley Lab, have molecular shapes similar to biological molecules like proteins, but are made with synthetic building
A novel approach to growing nanowires promises a new means of control over their light-emitting and electronic properties. Berkeley Lab researchers demonstrated a new growth technique that uses specially engineered catalysts. These catalysts have given scientists more options than ever in tuning the color of light-emitting nanowires.