New
advanced microscopy techniques are established to detect morpho - functional aspects in brain and hearth.
Caroline obtained her degree in physics from the University of Heidelberg, Germany in 2008 and went on to do a PhD at the Institute of Photonics, University of Strathclyde, Glasgow in 2012 with a thesis on the application of wavefront sensorless adaptive optics in
advanced microscopy techniques.
To test this hypothesis, we follow the movement of proteins inside axons in real time, using
advanced microscopy techniques that allow us to determine in detail whether this movement is impaired as an axon ages.
Also, by using
advanced microscopy techniques, we can investigate processes like mitosis, and gain insight in chromosomal instability.
By using
advanced microscopy techniques, researchers can create more detailed neurological maps and imaging.
Not exact matches
For the current study, working in the CU Cancer Center
Advanced Light
Microscopy Core, co-authors Dominik Stitch, PhD, and Radu Moldovan, PhD, implemented a new
technique known intravital multiphoton in vivo
microscopy that enabled the team to watch fluorescent - tagged liposomes in real - time after injection.
Other
techniques advancing in the live - imaging space include multiphoton
microscopy and label - free processes such as Raman
microscopy and third harmonic generation imaging.
By using a combination of
advanced genetics, molecular approaches, and
microscopy techniques, they found that this signaling pathway is used in the adult brain in a completely novel way.
The researchers studied the diamond samples using a combination of
advanced transmission electron
microscopy techniques at EPFL's Interdisciplinary Centre for Electron
Microscopy.
COOL
ADVANCE Cryo - electron
microscopy, an imaging
technique that involves flash freezing molecules to see their structures, has won its inventors the Nobel Prize in chemistry.
Using an
advanced imaging
technique called intravital
microscopy, the researchers followed the movement and interaction of HIV - infected cells in the spleen of mice.
«
Advances in imaging
techniques, such as 2 - photon
microscopy, have allowed us to observe the adhesion process and characterise the two components.
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.
It also utilizes new
techniques that allow three - dimensional analysis of fluorescent embryonic skeletons, using
advanced spin - disc confocal
microscopy and software.
Furthermore, so as to understand the chemical and physical nature of the shaping process, standard characterization
techniques (spectroscopy and electron
microscopy) have been employed, as well as new theoretical models and
advanced computer simulation
techniques.
By making the switch, all molecules made from fatty acids can be observed inside living cells by an
advanced imaging
technique called stimulated Raman scattering (SRS)
microscopy.
«It's a powerful example of what can be learned through combining state of the art
microscopy techniques with predictions from
advanced computational approaches,» says James LeBeau, an assistant professor of materials science and engineering at NC State, co-author of the paper, and the creator of the revolving STEM
technique.
The authors also employed other
advanced imaging
techniques — including electron
microscopy and super-resolution imaging — to discover that the formation, and subsequent loosening, of these contacts is regulated by a lysosomal protein called RAB7.
Using confocal laser
microscopy and electron
microscopy, coupled with the use of
advanced synchrotron
techniques at the Swiss Light Source, in Villigen (Switzerland), and at the Canadian Light Source in Saskatoon, Canada, the team was able to show that not only the morphology of microbial twisted structures is preserved after long incubations under diagenetic conditions, but also organic remnants can be detected in the mineralized twisted structures.
Her team's research opens up new possibilities in the nascent field of 3 - D nanomagnetics, which has evolved through recent discoveries of new magnetic effects at the atomic level, as well as
advances in characterization methods such as in the X-ray magnetic
microscopy technique used by the group.
Utilizes
advanced electron
microscopy techniques to study nanoscale structure and defects that determine the utility of functional materials, such as superconductors, multiferroics, and other energy related systems including thermoelectrics, photovoltaics, and batteries.
The researchers were able to achieve a controllable self - assembly of peptoids on a flat surface by manipulating molecular - level interactions through
advanced chemistry and
microscopy techniques.
Optical imaging and spectroscopy,
advanced optical imaging
techniques in particular super-resolution fluorescence
microscopy, optical physics, nanotechnology, single - molecule biophysics and macromolecular biochemistry, single - molecule imaging, gene expression, computational modeling, single - molecule (force) spectroscopy, biomolecular engineering, nucleic acid nanotechnology
From 2000 to 2003 he was a research scientist at Evotec, Hamburg, developing
advanced fluorescence
microscopy techniques for high - throughput drug screening.
Atomic force
microscopy is a powerful and versatile scientific
technique that continues to
advance nanoscience for the benefit of society.
As Professor Arne Brataas, of the Norwegian University of Science and Technology, and chairman of the Kavli Nanoscience Prize Committee said «Atomic force
microscopy is a powerful and versatile scientific
technique that continues to
advance nanoscience for the benefit of society.»
Next, they used an
advanced electron
microscopy technique that tilts samples in an electron beam and provides structural information in 3D.
Similar to light
microscopy, there have been significant
advances in tissue clearing
techniques during this century.
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.
Acoustic emission measurements collected during electrochemical tests, combined with
advanced imaging
techniques such as transmission X ‐ ray
microscopy, provide a window into the internal workings of battery materials during energy storage cycles.
They also assist with more
advanced techniques, such as live - cell
microscopy, three - dimensional reconstruction, and image analysis.
Acoustic emission measurements collected during electrochemical tests, combined with
advanced imaging
techniques such as transmission X ‐ ray
microscopy, provide a window into the internal workings of battery materials...
The projects are multidisciplinary, involving a variety of
techniques including molecular biology (PCR, cloning), cell culture and
advanced fluorescence
microscopy.
In December 2013 he joined prof. Pavone's group starting a PhD program relating neuronal and vascular imaging using
advanced optical
techniques, in particular two - photon and light - sheet
microscopy.