RESUMO
This paper reports on the structural changes occurring within the lithium-sodium orthoborate crystal lattice during the solid-state absorption of CO2. Results derived from Fourier transform infrared measurements indicate that the CO2-saturated mixed-alkali metal orthoborate and its CO2-lean metaborate counterpart essentially present the same spectral profile, suggesting that CO2 capture results in a fundamental shift of the orthoborate composition to the metaborate one. The implications of such a structural transformation were examined in the molten state at elevated temperatures through rheological measurements, and although confirming that the CO2-lean metaborate exhibits a higher viscosity than the CO2-lean orthoborate, the results suggest that incorporation of CO2 in the orthoborate ionic lattice dilutes the melt, leading to a remarkable reduction in its overall viscosity, despite causing a structural transformation from the less viscous orthoborate form to the more viscous metaborate one.