Scientists combine biology, nanotechnology into composites that light up upon chemical stimulation.
Scientists design outstanding catalysts by controlling the composition and shape of these tiny plate-like structures on the nanoscale.
Scientists set record resolution for patterning materials at sizes as small as a single nanometer using microscope-based lithography.
The quest for solar cell materials that are inexpensive, stable, and efficient leads to a breakthrough in thin film organic-inorganic perovskites.
Scientists invent a new approach to creating ordered patterns of nitrogen-vacancy centers in diamond, a promising approach to storing and computing quantum data.
Scientists coax simple molecules into forming complex three-dimensional structures for faster, more energy-efficient electronics.
Scientists advance the precision controlled synthesis of gold nanocrystals, which could create new catalysts that improve industrial energy efficiency.
Using DNA linkers to form cages for nanoparticles redefines the rules for assembling nanoparticles
Researchers designed an extremely efficient catalytic system to remove carbon monoxide.
This development could lead to new materials for ultra-small transistors, diodes, and more
This discovery could lead to low-cost, non-toxic, biological components for light-weight electronics.
A novel approach to design and assembly of nanotextured surfaces on photovoltaic devices could improve energy collection.
