Abstract: Monolithic ceramic bodies that have a mixed-oxide marginal region and a metallic surface, where the ceramic body includes an oxide of a first metal (I), while the mixed-oxide marginal region includes the oxide of the first metal (I) and the oxide of a further metal (II) having a high affinity for oxygen, and the metallic surface includes the further metal (II). The mixed oxide marginal region includes a continuous concentration gradient of the first metal (I), from 100% in the core to 0% in the transitional region to the metallic surface of the ceramic body, and a continuous concentration gradient of the further metal (II), starting from 0% in the core to 100% in the transitional region to the metallic surface of the ceramic body, where the oxygen concentration in the mixed-oxide marginal region remains constant, and the monolithic structure of the ceramic body has no phase boundaries.

Abstract: The invention relates to a method for the coating of a surface of a ceramic basic body with a titanium compound, comprising the steps of (i) providing a preformed ceramic material; (ii) at least one step of surface activation of said ceramic material using a plasma for plasma-chemical surface preparation wherein the plasma comprises high-energy ions; (iii) at least one step of applying a titanium compound bonding layer to said ceramic material by plasma-supported coating wherein the plasma-supported coating is performed in pulsed and/or non-pulsed fashion; (iv) at least one step of applying a functional titanium compound layer by pulsed plasma-supported coating. The invention also relates to novel compositions as well as uses of the novel compositions.

Abstract: Monolithic ceramic bodies that have a mixed-oxide marginal region and a metallic surface, where the ceramic body includes an oxide of a first metal (I), while the mixed-oxide marginal region includes the oxide of the first metal (I) and the oxide of a further metal (II) having a high affinity for oxygen, and the metallic surface includes the further metal (II). The mixed oxide marginal region includes a continuous concentration gradient of the first metal (I), from 100% in the core to 0% in the transitional region to the metallic surface of the ceramic body, and a continuous concentration gradient of the further metal (II), starting from 0% in the core to 100% in the transitional region to the metallic surface of the ceramic body, where the oxygen concentration in the mixed-oxide marginal region remains constant, and the monolithic structure of the ceramic body has no phase boundaries.