Table 3.
FTIR band positions of chitosan–TiO2 composite.
| Band Position | Assignment | Ref. |
|---|---|---|
| 3450 | OH bond of chitosan; it could exist an electrostatic interaction of N–H–O–Ti | [15,16] |
| 3350 | Combined peaks of the NH2 and OH group stretching vibrations | [69] |
| 3300 | Strong interaction between NH2 and OH with TiO2 | [40,69] |
| 2934 | Asymmetrical stretching vibration of the C–H in CH2 and CH3 groups | [55,70] |
| 2923–2872 | C–H asymmetric and symmetric vibrations, TiO2–OH functional group | [8] |
| 1735–1733 | O–C–NH2 indicated the presence of titanates in the composite | [71] |
| 1637–1715 | N–H scissoring from the primary amine, it could exist an interaction of Ti4+ with –NH2 | [50,68,72,73] |
| 1577–1589 | Angular deformation of N–H bonds | [51,74] |
| 1538 | Secondary amide (amide II), CH2 bending | [60] |
| 1528–1534 | C–N and C–N–H bending mode | [5,68] |
| 1421 | C–N axial deformation (amine group); C–O stretching (amide I) | [45,70] |
| 1370–1420 | C–O–C stretching bands, N = O vibrations, –NH deformation, CH3 group | [15,70,73,74] |
| 1287 | Ti–OH and Ti–O bonds | [15,70] |
| 1029–1152 | C–N bending vibrations and asymmetrical stretching vibrations of C–O–C glycosidic bonds, Ti–O–C bending mode, Ti–OH bond | [10,15,16,17,70,74,75] |
| 600–900 | Ti–O–Ti bond, asymmetric stretching mode of Ti–O, immobilization of TiO2 onto the CS matrix | [5,15,16,70,74] |
| 385–600 | Ti–O–C, it could exist an interaction of Ti Lewis site with -NH2 groups of chitosan chain | [42,50,69] |