Add to ORKGIt has previously been shown that there are many benefits to be obtained in combining several techniques in one in situ set-up to study chemical processes in action. Many of these combined set-ups make use of two techniques, but in some cases it is possible and useful to combine even more. A set-up has recently been developed that combines three X-ray-based techniques, small- and wide-angle X-ray scattering (SAXS/WAXS) and quick-scanning EXAFS (QEXAFS), for the study of dynamical chemical processes. The set-up is able to probe the same part of the sample during the synthesis process and is thus able to follow changes at the nanometre to micrometre scale during, for example, materials selfassembly, with a time resolution of the order of a fe...
In industrial processes, polymer melts are often exposed to a combination of fast cooling rates, hig...
Time-resolved X-ray absorption-fine structure (Quick-XAFS) and UV-Vis absorption spectroscopies were...
Many processes and materials in heterogeneous catalysis undergo dynamic structural changes depending...
It has previously been shown that there are many benefits to be obtained in combining several techni...
Recently developed equipment suitable for quasi simultaneous data collection of SAXS/WAXS and X-ray ...
The advantages of the combined (Q)EXAFS/XRD technique are discussed with focus on recent studies whe...
An experimental setup for QEXAFS, which enables sub-second time resolution, is decribed. The QEXAFS ...
International audienceRecent advances in X-ray instrumentation and sample injection systems have ena...
Useful application of in situ dispersive XAFS spectroscopy to time-resolved processes, e.g. activati...
Zeolites are materials with monodisperse pores and well-defined active sites, and are therefore espe...
A quick-scanning extended x-ray-absorption fine-structure (QEXAFS) technique has been devised to fol...
Catalysis is one of the most important methods to obtain products in a selective and sustainable man...
Two limitations that exist in conventional techniques for x-ray absorption fine-structure (XAFS) spe...
The continuous improvement of X-ray sources, optics, and detectors since the start of the twenty fir...
In industrial processes, polymer melts are often exposed to a combination of fast cooling rates, hig...
Time-resolved X-ray absorption-fine structure (Quick-XAFS) and UV-Vis absorption spectroscopies were...
Many processes and materials in heterogeneous catalysis undergo dynamic structural changes depending...
It has previously been shown that there are many benefits to be obtained in combining several techni...
Recently developed equipment suitable for quasi simultaneous data collection of SAXS/WAXS and X-ray ...
The advantages of the combined (Q)EXAFS/XRD technique are discussed with focus on recent studies whe...
An experimental setup for QEXAFS, which enables sub-second time resolution, is decribed. The QEXAFS ...
International audienceRecent advances in X-ray instrumentation and sample injection systems have ena...
Useful application of in situ dispersive XAFS spectroscopy to time-resolved processes, e.g. activati...
Zeolites are materials with monodisperse pores and well-defined active sites, and are therefore espe...
A quick-scanning extended x-ray-absorption fine-structure (QEXAFS) technique has been devised to fol...
Catalysis is one of the most important methods to obtain products in a selective and sustainable man...
Two limitations that exist in conventional techniques for x-ray absorption fine-structure (XAFS) spe...
The continuous improvement of X-ray sources, optics, and detectors since the start of the twenty fir...
In industrial processes, polymer melts are often exposed to a combination of fast cooling rates, hig...
Time-resolved X-ray absorption-fine structure (Quick-XAFS) and UV-Vis absorption spectroscopies were...
Many processes and materials in heterogeneous catalysis undergo dynamic structural changes depending...