Based on FTIR and XPs analysis, how to confirm that the obtained carbon dots (CDs) has (-COOH). In which form these groups can present in our material where C-C, C-N, O-H, C-H, C=O, C-O and C-O-C were obtained from both analysis mentioned above.
In XPS when you perform the analysis of the regions you must take into account the correspondence, that is, if in the C 1s the COOH species appears, in the O 1s this must also be present, otherwise the COOH species does not exist, unless there is overlap of species in one of the two peaks.
In any case, the COOH species in C 1s appears around 289eV. In the O1s it appears twice, in 531.8eV (COOH) and 533.4eV (COOH).
Of course the FTIR Analysis is the actual method of identification of functional group. But additionally, What I did with my Quantum Dots were also interesting. Just add Sodium Carbonate to your test solution and observe the CO2 bubbles. The formation of CO2 confirms the COOH functional group. even small quantity of COOH group will lead to formation of tiny condensed air bubbles on test tube surface.