Glass catalyst compositions for improved hydrothermal durability

We claim: 1 . A diesel soot filter comprising: a substrate having a surface disposed at least partially within a fluid path of the diesel soot filter; and a glass catalyst disposed on the surface of the substrate such that an exhaust gas contacts at least a portion of a surface of the glass catalyst as the exhaust gas moves within the diesel soot filter, the glass catalyst comprising: a plurality of alkali metal ions disposed within the glass catalyst and releasable to the surface of the glass catalyst at a controlled rate sufficiently fast to supplement the lost alkali metal ions at the surface of the glass catalyst and sufficiently slow to extend the catalytic lifespan of the filter, wherein the alkali metal ions combust with the soot as the exhaust gas travels along the fluid path, and wherein an oxide basis of the glass catalyst comprises Silicon (Si), Potassium (K), Cesium (Ce), and Zirconium (Zr). 2 . A diesel soot filter as defined in claim 1 , wherein the weight percentage of the oxide basis of the glass catalyst is about 45 At % Si, 45 At % K, 8 At % Ce, and 2 At % Zr. 3 . A diesel soot filter as defined in claim 1 , wherein the weight percentage of the oxide basis of the glass catalyst comprises approximately 0 At % Ce to approximately 10 At % Ce and approximately 0 At % Zr to approximately 10 At % Zr. 4 . An apparatus for eliminating particulate emissions in an exhaust gas comprising: a filter having an inlet, an outlet, and an fluid path therebetween, wherein the exhaust gas moves from the inlet to the outlet through the fluid path; a substrate having a surface and a glass catalyst disposed on the surface of the substrate and at least partially within the fluid path such that the exhaust gas contacts at least a portion of a surface of the glass catalyst disposed on the surface of the substrate as the exhaust gas moves from the inlet to the outlet; and a plurality of alkali metal ions disposed within the glass catalyst and releasable to the surface of the glass catalyst at a controlled rate, wherein the alkali metal ions combust with the particulate emissions as the particulate emissions travel along the fluid path, and wherein the composition by weight percentage of an oxide basis of the glass catalyst is about 45 At % Si, 45 At % K, 8 At % Ce, and 2 At % Zr. 5 . An apparatus as defined in claim 4 , further comprising a plurality of channels formed between the inlet and the outlet, wherein each of the channels forms a fluid path. 6 . An apparatus as defined in claim 5 , wherein the plurality of channels are formed by at least one of an inert ceramic or metal, and wherein the glass catalyst at least partially coats the formed channels. 7 . An apparatus as defined in claim 5 , wherein the glass catalyst is substantially devoid of Calcium (Ca).