TiO2 is one of the most widely used ceramic materials in many technological fields: biomaterials, water purification, sensors, photocatalyst etc. Most of applications need TiO2 coatings or thin/thick films. Special interest is given to nanostructured TiO2 coatings because they increase hardness, stiffness, strength as well provide antibacterial and bioactive properties [1]. Among other technologies used to produce TiO2 coatings, the electrophoretic deposition (EPD) technique has emerged as one of the most promising technologies due to its versatility, simplicity, and low cost. EPD is based on the motion of charged particles in suspension under the influence of an electric field towards an oppositely charged electrode [2]. Our aim was to investigate the influence of EPD parameters and thermal treatment on properties of obtained TiO2 coatings.