An X-ray
microscopy technique recently developed at the Advanced Light Source, a DOE Office of Science User Facility, images nanoscale changes inside lithium - ion battery particles as they charge and discharge.
An X-ray
microscopy technique recently developed at the Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) has given scientists the ability to image nanoscale changes inside lithium - ion battery particles as they charge and discharge.
Not exact matches
The
technique, called superresolution single - molecule fluorescence
microscopy,
recently helped scientists at the University of Manchester in England track natural killer (NK) cells, which help destroy cancer and viruses.
She and her research group
recently demonstrated CLAIRE's imaging capabilities by applying the
technique to aluminum nanostructures and polymer films that could not have been directly imaged with electron
microscopy.
Recently, researchers figured out a way to modify a popular electron
microscopy technique to look at a mix of materials, even those that would appear invisible to standard imaging
techniques.
Recently developed superresolution
microscopy techniques however are ideal tools that allow us to study these assemblies in their natural cellular environment and to understand their modus operandi.
This microcopy is a marriage of two
recently developed imaging
techniques, namely, light - sheet
microscopy and single - molecule Bayesian
microscopy.