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Nanoscale imaging of the current generated by light provides insights for future generation optoelectronic devices.
New porous, electrically conductive materials have potential uses in fuel cells, batteries, and solar photovoltaics.
Atomic-Scale, femtosecond time-scale measurements unravel the atomistic pathways and speed limits for copper migration through a nanocrystal.
Structure and composition of the Solid Electrolyte Interphase in lithium ion batteries was investigated via a unique combination of microscopy and spectroscopy.
This observation paves the way for a deeper understanding of high-temperature superconductivity and future applications for quantum computing.
Long-range, three-dimensional alignment and stacking of multiple regions within biologically derived membranes.
Discovering how polymer organization on the molecular level affects electric charge movement in organic solar cells.
New microscopy with nanometer-sized resolution may bring revolutionary new understanding to energy storage technologies.
Small addition of rare earth element makes a big difference in converting heat to electricity.
Squeezing creates new class of material built from clusters of carbon atoms.
New microscopy method opens the door to understanding atomic-scale variations in chemistry and improved materials performance in solid oxide fuel cells.
High-efficiency compound semiconductor solar cells can now be printed on flexible, plastics.
