With the combination of in
situ synchrotron infrared spectroscopic measurements carried out at high pressure, and ab initio calculations on the ferromagnesite structure, it was possible to identify a unique vibrational signature present only in the high - pressure phase, and thus a new carbon - oxygen bond forms in ferromagnesite under pressure.
In her lecture at the Anorganischen Chemie Session of the Wissenschaftsforum 2015, Dorota first described the in
situ synchrotron - based X-ray absorption and diffraction techniques that she had developed in the prize - winning paper to elucidate the mechanism of the formation of nanoparticles.
Dr. Koziej is honored for her article «Puzzling Mechanism behind a Simple Synthesis of Cobalt and Cobalt Oxide Nanoparticles: In
Situ Synchrotron X-ray Absorption and Diffraction Studies», published in Chemistry of Materials.
Not exact matches
They performed Micro-beam in -
situ stress experiments in the mySpot BESSY facility of HZB, Berlin, Germany and analyzed the local orientation of the mineral nanoparticles using the nano - imaging facility of the European
Synchrotron Radiation Facility (ESRF) in Grenoble, France.
In
situ high - pressure
synchrotron X-ray diffraction and absorption experiments have been done to investigate the behavior of the DAC.
One of the missions of this center is to harness new
synchrotron radiation techniques for in
situ studies of materials structure and dynamics in extreme conditions and thereby to understand and produce new energy materials.
Several more researchers presented their work during the day, including protein synthesis at atomic resolution, bio-imaging opportunities at
synchrotrons, multi-dimensional imaging during plant cell differentiation, how to use electron cryomicroscopy for in
situ structural biology, and how structured illumination microscopy can offer insights into the regulation of mammalian meiosis.
Her research deals with the development of materials for energy - related applications, using in
situ spectroscopic
synchrotron methods and developing platforms for on - chip monitoring of nanoparticle crystallization.
In
situ data collection and automated data analysis is available and data can be retrieved at the
synchrotron or remotely after a visit.