A series of supported CoCr2O4/TUD-1 catalysts with different loadings were prepared and tested for catalytic combustion of dichloromethane, in order to investigate the effect of particle size on the catalyst properties and related catalytic behaviors. It was found that the supported catalyst with low content of CoCr2O4 had smaller CoCr2O4 particles compared to that with high content, as revealed by the XRD results. Consequently, the changes in particle size altered the surface composition of the catalyst, as the small particles contained higher content of surface Cr6+ species compared to the large ones. The enrichment of Cr6+ species improved catalyst reducibility and surface acidity, which synergistically governed the observed catalytic behaviors. As a reuslt, the 5CoCr(2)O(4)/TUD-1 catalyst had the highest reaction rate of 64.8 x 10(-7) molDCM g(-1)CoCr2o4s(-1), due to its best reducibility and highest surface acidity. (C) 2017 Elsevier B.V. All rights reserved.