New electrochromic spinel-type Co(Al)-oxide and Co(Al,Si)-oxide films exhibiting coloring/bleaching changes Δ T= T colored− T bleached = 75% − 25% = 50% (where T is transmittance) with a coloring efficiency of 22cm 2 C −1 were deposited by a dip-coating method from aqueous colloidal solutions made by thermal hydrolysis of Co(II)-acetate, Al(III)-sulphate, citric acid and 3-aminopropyltriethoxysilane precursors. The nanocomposite spinel structure of the films and powders was determined using X-ray diffraction, thermogravimetry, visible and infrared transmission and reflection-absorption spectroscopy performed at near-grazing incidence angle conditions (80°) using p-polarized light. The existence of spinel lattice modes in the IR spectra of cycled films proved that the spinel structure of Co(Al,Si)-oxide films is preserved at least on the scale of short-range interactions detected with IR spectroscopy. In addition to this, sulphate (SO 4 2−) ions are retained in the structure of cycled films heat-treated at 500 °C. The role of order-disorder transitions of sulphate ions present in cycled films is discussed with respect to their influence in enhancing the speed and degree of coloring/bleaching changes of electrochromic Co(Al,Si)-oxide spinel films.