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Anion-exchange processes in cobalt-aluminium layered double hydroxides (LDHs) were studied by in situ synchrotron X-ray powder diffraction (XRPD). The processes investigated were CoAl-CO3 CoAl-Cl CoAl-CO3, CoAl-Cl CoAl-NO3 and CoAl-CO3 CoAl-SO4. The XRPD data show that the CoAl-CO3 CoAl-Cl process is a two-phase transformation, where the amount of the CoAl-CO3 phase decreases exponentially while that of the CoAl-Cl phase increases exponentially. Energy-dispersive X-ray spectroscopy (EDXS) studies of a partially chloride-exchanged CoAl-CO3 LDH sample along with in situ XRPD data suggested that the individual particles in the CoAl-CO3 sample are generally anion-exchanged with chloride one at a time. In contrast with the CoAl-CO3 CoAl-Cl transformation, the XRPD data show that the reverse CoAl-Cl CoAl-CO3 process is a one-phase transformation. Rietveld refinements indicate that the occupancy factors of the carbon and oxygen sites of the carbonate group increase, while that of the chloride site decreases. In the CoAl-Cl CoAl-NO3 anion-exchange reaction, the XRPD patterns reveal the existence of two intermediate phases in addition to the initial CoAl-Cl and final CoAl-NO3 phases. The in situ data indicate that one of these intermediates is a mixed nitrate- and chloride-based LDH phase, where the disorder decreases as the nitrate content increases. The XRPD data of the partial CoAl-CO3 CoAl-SO4 anion-exchange reaction show that the process is a two-phase transformation involving a sulfate-containing LDH with a 1H polytype structure.
Original languageEnglish
JournalJournal of Applied Crystallography
Publication date2010
Volume43
Journal number3
Pages434-447
ISSN0021-8898
DOIs
StatePublished
CitationsWeb of Science® Times Cited: 6

Keywords

  • Batteries and carbon-free energy storage, Materials and energy storage
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