Not exact matches
Additionally, they used a
microscopy technique that allowed them to capture high - resolution images at
different depths within the biofilms, revealing details of their three - dimensional structures.
Backman has been studying cell abnormalities at the nanoscale in many
different types of cancers, using an optical
technique he pioneered called partial wave spectroscopic (PWS)
microscopy.
In her 4 years at Furman University in Greenville, South Carolina, Laura Glish, a 2006 graduate, worked on collaborative projects in two
different laboratories and explored a variety of experimental
techniques, from atomic force
microscopy to synthetic chemistry and molecular modeling.
An international team led by researchers from the U.S. Department of Energy's Lawrence Berkeley National Laboratory (Berkeley Lab) used advanced
techniques in electron
microscopy to show how the ratio of materials that make up a lithium - ion battery electrode affects its structure at the atomic level, and how the surface is very
different from the rest of the material.
The
different types of motion of the plasmons were characterized using a
microscopy technique called electron energy - loss spectroscopy (EELS), whose very fine spatial and spectral resolution enabled the researchers to propose a new theoretical model of plasmon behavior.
We demonstrated the
technique on 20
different biological processes spanning four orders of magnitude in space and time, including the binding kinetics of single Sox2 transcription factor molecules, 3D superresolution photoactivated localization
microscopy of nuclear lamins, dynamic organelle rearrangements and 3D tracking of microtubule plus ends during mitosis, neutrophil motility in a collagen mesh, and subcellular protein localization and dynamics during embryogenesis in Caenorhabditis elegans and Drosophila melanogaster.
Using a
microscopy technique that offers a window into living brain tissue, he will probe dopamine's actions in
different groups of neurons, such as those that signal directly to blood vessels that supply the brain.
As a complement to laboratory
techniques such as gas chromatography coupled to mass spectrometry, infrared spectroscopy, X-ray diffraction, visible and electron
microscopy carried out at the Centre of Research and Restoration of French Museums, Paris, the scientists used the ultra bright X-rays on the ESRF's ID21 beamline to analyse tiny fragments taken from
different sculptures.
The core facility is a two - photon in vivo imaging platform developed at the Nonlinear bioimaging laboratory, a
technique that allows for non-invasive structural and functional measurements in small animal models at
different scales: from macroscopic imaging of the brain morphology to highly resolved
microscopy of neuron populations, single neurons, and even subcellular structures.
ID01's scanning X-ray diffraction
microscopy technique allows industrial researchers to detect the slightest imperfections in heterogeneous structures and thin films, even when stuck in
different layers.