Abstract
A portable powder-liquid high-corrosion-resistant reaction cell has been designed to follow in situ reactions by X-ray powder diffraction (XRD) and X-ray absorption spectroscopy (XAS) techniques. The cell has been conceived to be mounted on the experimental stations for diffraction and absorption of the Spanish CRG SpLine-BM25 beamline at the European Synchrotron Radiation Facility. Powder reactants and/or products are kept at a fixed position in a vertical geometry in the X-ray pathway by a porous membrane, under forced liquid reflux circulation. Owing to the short pathway of the X-ray beam through the cell, XRD and XAS measurements can be carried out in transmission configuration/mode. In the case of the diffraction technique, data can be collected with either a point detector or a two-dimensional CCD detector, depending on specific experimental requirements in terms of space or time resolution. Crystallization processes, heterogeneous catalytic processes and several varieties of experiments can be followed by these techniques with this cell. Two experiments were carried out to demonstrate the cell feasibility: the phase transformations of layered titanium phosphates in boiling aqueous solutions of phosphoric acid, and the reaction of copper carbonate and L-isoleucine amino acid powders in boiling aqueous solution. In this last case the shrinking of the solid reactants and the formation of Cu(isoleucine)(2) is observed. The crystallization processes and several phase transitions have been observed during the experiments, as well as an unexpected reaction pathway.
Highlights
Many important high-technology production processes take place on heterogeneous reactions systems
A novel reaction cell has been designed to follow in situ powder–liquid reactions
The powder is kept in the beam position with a porous membrane, while the liquid circulates across its channels, assuring total contact with the sample
Summary
Many important high-technology production processes take place on heterogeneous reactions systems. X-ray absorption spectroscopy are powerful tools for time-resolved in situ studies of phase transitions and reactions, since the electronic and crystallographic structure, including its morphology, can be obtained Even for these two suitable techniques, a special challenge is the case of powder– liquid reactions where, normally, the reaction bath is permanently in circulation and the solid parts, either for reactants or products, are in permanent movement. In this contribution a novel reaction cell for in situ study of temperature-controlled powder–liquid heterogeneous reactions is presented, which has the main advantage that the solid part is kept in the X-ray path in a fixed position. The phase transformation of copper carbonate and l-isoleucine amino acid in boiling aqueous solution has been studied in situ and the complete reaction pathway of the Cu(isoleucine) complex has been obtained
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