Investigation of the capacity decay of a CdO-NaI mixed sorbent for pre-combustion CO2 capture

Christian Vogt, Thomas R. Gengenbach, Shery L.Y. Chang, Gregory P. Knowles, Alan L. Chaffee

Research output: Contribution to journalArticlepeer-review

10 Scopus citations


The mechanisms for the loss of both CO2 working capacity and mass from a CdO-NaI composite were investigated to better assess the potential use of the material to facilitate the pre-combustion capture of CO2 from syngas. Fresh activated material was used to analyse sorption and desorption using a CO2-N2 mixture. Mass spectrometric analysis of the exit gas revealed the loss of elemental iodine from the system over the period, attributed to the oxidation of iodide. Thermogravimetric analysis using iodine vapour suggested the iodide loss reaction to be a partially reversible equilibrium. X-ray photoelectron spectroscopy revealed the formation of a highly oxidised iodine species on the surface of the sorbent during initial calcination in both air and N2, but this compound vanished after the use of the sorbent in 25 CO2 sorption cycles. Elemental mapping showed that iodine was dislocated from the sodium, which it was considered to be originally associated to, supporting the theory of oxidation and evaporation (and possible re-deposition). Transmission electron microscopy revealed that the sorbent consisted of regular, spherical nanoparticles of approx. 250 nm diameter, which became more irregularly-shaped after CO2 sorption cycles, considered to be due to void/crack formation caused by density changes upon calcination and carbonation. In situ powder X-ray diffraction revealed an increase in crystallinity of both CdO and NaI upon heating to CO2 sorption temperature of 325 °C in N2 atmosphere, compared to room temperature. If the oxidation of the iodide promoter can be inhibited, this is likely to improve the multicyclic CO2 sorption stability of this material for future use. This journal is

Original languageEnglish (US)
Pages (from-to)5162-5175
Number of pages14
JournalJournal of Materials Chemistry A
Issue number9
StatePublished - Mar 7 2015
Externally publishedYes

ASJC Scopus subject areas

  • Chemistry(all)
  • Renewable Energy, Sustainability and the Environment
  • Materials Science(all)


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