Moliner, CristinaFocacci, SimonaAntonucci, BeatriceMoreno , AldoBiti, SimbaHamzah, FazlenaMartinez-Felipe, AlfonsoArato, ElisabettaFernandez Martin, Claudia2022-12-062022-12-062022-12-02Moliner, C, Focacci, S, Antonucci, B, Moreno , A, Biti, S, Hamzah, F, Martinez-Felipe, A, Arato, E & Fernandez Martin, C 2022, 'Production, activation and CO2 uptake capacity of a carbonaceous microporous material from palm oil residues', Energies, vol. 15, no. 23, 9160. https://doi.org/10.3390/en152391601996-1073ORCID: /0000-0001-9788-7784/work/124281060https://hdl.handle.net/2164/19684Funding This research was funded by many parts. C.M. would like to acknowledge the Royal Society for the award of an International Exchange award (IES\R1\211069). S.F. and B.A. would like to acknowledge the Erasmus KA01 grant. A.M.-F. would like to acknowledge the Scottish Government and the Royal Society of Edinburgh for the award of a SAPHIRE project, the University of Aberdeen, for the award of two internal pump research grants, and the Royal Academy of Engineering, for the award of a Newton Fund project (NRCP1516_4_61). C.F.M would like to acknowledge the Scottish Funding Council for the award of several grants to investigate the synthesis of activated carbons from waste to reduce CO2 emissions (Grants Codes: SF10233, SF10249, and SF10164).124386276engpalm oil wasteCO2 uptakeadsorptionchemical and physical activationBiocharTA Engineering (General). Civil engineering (General)OtherIES\R1\211069NRCP1516_4_61Scottish Funding CouncilSF10233SF10249SF10164TAJournal article10.3390/en152391601523