Vibrational control was applied to suppress the self-sustained oscillations during CO oxidation on a Rh/SiO 2 catalyst wafer. Using the appropriate external sinusoidal vibration on the CO and O 2 flow rate, the amplitude of CO 2 concentration oscillations was reduced to one-tenth of the constant feed case and the time-averaged CO 2 production increased by 30%. The decrease in the amplitude of the oscillations was accompanied by the suppression of the movement of the thermal patterns, measured by IR thermography, occurring during oscillations. The optimum control is attained at a specific frequency and amplitude of the forced oscillations.