![When light is absorbed by solar cells to make electricity, electrons and “missing electrons” are generated that move through the layers of materials in typical solar cells.](/-/media/bes/images/highlights/2016/06/chamers-large.jpg?h=597&w=800&la=en&hash=31BC9F9B7D5A88A0E4B6F6CEDB45E695982C5A73F745C6B7DE224D9170519B7C)
New See-Through Material for Electronics
A low-cost, stable oxide film is highly conductive and transparent, rivaling its predecessors.
A low-cost, stable oxide film is highly conductive and transparent, rivaling its predecessors.
New method to fabricate graphene nanoribbon arrays on semiconductor wafers turns semimetal into semiconductor.
Newly discovered “design rule” brings nature-inspired nanostructures one step closer.
This discovery could lead to low-cost, non-toxic, biological components for light-weight electronics.
Lithium walls open up access to new regimes for the fusion reactor.
Hollow shape-selected platinum nanocages represent a new class of highly active catalysts.
The world’s fastest images of nitrogen molecules rotating in a gas were captured using electron diffraction.
A new approach to investigating green fluorescent protein provides a vital tool for unraveling molecular-level details of processes important in biology and light harvesting for energy use.
Reactions with this extremely rare element could reveal previously unknown trends, benefiting studies of new nuclear reactor fuels.
Demonstration of room temperature, single photon emission in doped carbon nanotubes opens a new path toward quantum information technologies.
Using tools that enable nuclear physics research into the heart of matter, scientists created a material for applications from aerospace to solar panels.
The neutron skin of the nucleus calcium-48 is much thinner than previously thought.