This work addresses the development of a magnetically extractable magnetite-silica-titania photocatalyst to be applied in the degradation of organic compounds in water. MCM-41 silica was successfully deposited on magnetite, providing large surface area for anchoring of TiOx species, and preventing thermally induced conversion of magnetite to hematite. A good correlation between the calculated values and amount of titania deposited on the silica-covered magnetite particles was obtained for a synthesis route involving the treatment of magnetite-silica in boiling ethanolic Ti-precursor solution. Photocatalytic activity in conversion of 4-chlorophenol could only be observed for compositions containing larger than similar to 50 wt% titania, whereas increasing the titania content did not significantly improve performance. Experiments carried out at pH similar to 3.0 and similar to 7.2 demonstrated the performance is relatively pH-independent. The structure activity-correlation of the materials is briefly discussed.