Hidayat, MiftahSarmadivaleh, MohammadDerksen, JosVega-Maza, DavidIglauer, StefanVinogradov, Jan2022-08-092022-08-092022-08-16Hidayat, M, Sarmadivaleh, M, Derksen, J, Vega-Maza, D, Iglauer, S & Vinogradov, J 2022, 'Zeta potential of a natural clayey sandstone saturated with carbonated NaCl solutions at supercritical CO2 conditions', Geophysical Research Letters, vol. 49, e2022GL099277. https://doi.org/10.1029/2022GL0992770094-8276RIS: urn:BDF0CE6FB330FE5A0D1839EE0B7AABBEhttps://hdl.handle.net/2164/19043Open Access via the Wiley Agreement Miftah Hidayat was supported by the Aberdeen-Curtin PhD studentship. David Vega-Maza is funded by the Spanish Ministry of Science, Innovation and Universities (“Beatriz Galindo Senior” fellowship BEAGAL18/00259). Abbie McLaughlin from School of Natural and Computing Sciences and John Still from the School of Geoscience, University of Aberdeen are acknowledged for their assistance in the XRD and SEM analyses.103990729engZeta potentialIntact natural sandstoneCarbonated NaCl solutionsSupercritical CO2 conditionsEffect of claysStreaming potential methodTA Engineering (General). Civil engineering (General)Supplementary DataTAJournal article10.1029/2022GL09927749