The detector group at the Swiss Light Source at PSI has been one of the pioneers in the development of custom-made hybrid pixel array detectors (HPADs) for synchrotron applications. In a paper published recently [Jungmann-Smith et al. (2016). J. Synchrotron Rad. 23, 385-394; doi:10.1107/S1600577515023541], this group shows that it is now possible to develop HPADs with sufficient low noise to allow single-photon detection below 1 keV as well as to perform spectroscopic imaging. A commentary has also been written about the work [Graafsma (2016). J. Synchrotron Rad. 23, 383-384; doi:10.1107/S1600577516002721].
CRAIC Technologies announces the addition of UV-visible-NIR transmission and reflectance polarization spectroscopy and imaging to CRAIC Technologies microspectrophotometers.
A Sandia-led team has developed a way to make a magnetic material that could lead to lighter and smaller, cheaper and better-performing high-frequency transformers, needed for more flexible energy storage systems and widespread adoption of renewable energy.
For three decades, glass expert Mark Ediger has been studying the basic properties of organic glass to discover new ways to regulate the placement of atoms or molecules and to slow down substance degradation, particularly substances that lack the stiffness of a crystal.
A significantly large magnitude elasto-optic effect has been discovered in ferroelectrics, an unusual class of materials. The discovery of this large magnitude phenomenon has potential for a number of devices that could be used in optical systems.
A team of physicists and materials scientists at Lehigh University have developed a new technique to create single crystals, where a broader range of materials can be employed in high-technology applications such as solar energy devices, microelectronics, etc.
AXT is proud to announce that they have won a very competitive tender to supply Queensland University of Technology (QUT) with two Rigaku SmartLab X-ray diffractometers.
A team from Helmholtz-Zentrum Berlin has been able for the first time to measure how new bonds influence molecules: they have reconstructed the “energy landscape” of acetone molecules using measurement data from the Swiss Light Source (SLS) of the Paul Scherrer Institut, and thereby empirically established the formation of hydrogen bonds between acetone and chloroform molecules. The results have been published in Nature Scientific Reports and assist in understanding fundamental phenomena of chemistry.
Oxford Instruments has launched a unique solution for reliable X-ray fluorescence (XRF) analysis of hot samples, for use with their range of X-MET8000 series handheld XRF analysers.
Scientists have successfully integrated hypothetical calculations and sophisticated in-situ microscopy to reveal critical clues about the properties of an advanced energy storage material for use in batteries and supercapacitors. The study was conducted by researchers from Oak Ridge National Laboratory (ORNL) of the Department of Energy (DOE).
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