Stacking Semiconductors for Artificial Photosynthesis
Nanowire-based design incorporates two semiconductors to enhance absorption of light.
Nanowire-based design incorporates two semiconductors to enhance absorption of light.
Study reveals peculiar mechanism of radical addition-elimination, enabling more accurate modeling of combustion and other reactions.
Hot nanostructures cool faster when they are physically close together.
For the first time, researchers detect how light excites electrons in metal.
Unusual structure, bonding, and properties may provide a new possibility for a californium borate.
Small-scale device provides easy “plug-and-play” testing of molecules and materials for artificial photosynthesis and fuel cell technologies.
Imaging of cerium oxide nanocrystals provides new insights into the different behaviors of catalyst for emission control, other uses.
Objective comparison of catalyst performance may enable the development of systems for artificial photosynthesis.
Tiny semiconducting crystals show promise for solar cell architectures and light-emitting devices.
Researchers patent new x-ray microscopy technology to “see” both the chemical and physical aspects of materials.
Tiny batteries made in nanopores manage ions and electrons for high power and extended life.
One-dimensional material has a diamond-like building block.