CO2 chemisorption in Li2CuO2 was studied under different CO2 and O-2 partial pressures, through thermogravimetric analysis. Results showed that using low Pco(2) (0.05-0.2) did not impact in the final CO2 chemisorption, in comparison to the P-co2 = 1. When oxygen was added to the flow (P-02 between 0.03 and 0.2) the CO2 chemisorption presented different modifications: The CO2 chemisorption is produced at lower temperatures; the CO2 carbonation kinetics is improved and the material is able to perform CO2 carbonation-decarbonation cycles. CO2 chemisorption kinetic parameters were determined assuming a first order reaction between 450 and 750 degrees C, where k and Delta Eta(double dagger) values confirmed that CO2 carbonation on Li2CuO2 is importantly enhanced with oxygen addition. If oxygen is not present in the flow gas, it has to be released from the Li2CuO2 crystalline structure to complete the carbonation process, while if oxygen is supplied in the flow gas the carbonation process is strongly facilitated, as the carbonation does not depend on the oxygen crystalline diffusion. Additionally, results evidenced that Li2CuO2 recrystallization, during the cyclic process, is performed by a different reaction mechanism. During the decarbonation process, partial lithium reincorporation, to the cuprate phase, produces Li3CuO2. The formation of this secondary phase (Li3CuO4) implies a partial copper oxidation, which must be induced by the P-O2. When a total decarbonation is produced, Li2CuO2 is totally recovered.(C) 2016 Elsevier B.V. All rights reserved.