Thermally stable porous catalyst systems and methods to produce the same

The invention claimed is: 1. A thermally stable catalyst system comprising: a. a porous support comprising boron nitride, the porous support having a specific surface area in the range of about 45 m 2 /g to about 85 m 2 /g, a pore volume, and an average pore diameter; and b. a plurality of metal particles deposited on the porous support, wherein each of the metal particles of the plurality comprises a stable metal and a catalytic metal, wherein the stable metal is present in the thermally stable catalyst system in a range of from 1 wt. % to 7.5 wt. %, and wherein the catalytic metal is present on a portion of a surface of each of the metal particles of the plurality, and wherein the thermally stable catalyst system has been calcined by a thermal pretreatment at a temperature in the range of about 600° C. to about 1000° C. 2. The thermally stable catalyst system of claim 1 , wherein the porous support has a pore volume in the range of about 40 mm 3 /g to about 220 mm 3 /g. 3. The thermally stable catalyst system of claim 1 , wherein the porous support has an average pore diameter in the range of about 11.8 nm to about 14.2 nm. 4. The thermally stable catalyst system of claim 1 , wherein the catalytic metal comprises Pt. 5. The thermally stable catalyst system of claim 1 , wherein the stable metal comprises at least one metal from the group consisting of: Co, Ir Rh, Mo, Fe, Nb, Re, Ru, and W. 6. The thermally stable catalyst system of claim 1 , wherein each of the metal particles comprise a core region and a shell region, and wherein the stable metal comprises a greater concentration of the core region as compared to the concentration of the catalytic metal and the catalytic metal comprises a greater concentration of the shell region as compared to the concentration of the stable metal. 7. The thermally stable catalyst system of claim 1 , wherein each of the metal particles comprises an alloy, and wherein the alloy includes a substantially homogenous distribution of the stable metal and the catalytic metal. 8. The thermally stable catalyst system of claim 1 , wherein each of the metal particles are bimetallic, and wherein the catalytic metal is Pt and the stable metal comprises one metal from the group consisting of: Co, Ir, Rh, Mo, Fe, Nb, Re, Ru, and W. 9. The thermally stable catalyst system of claim 1 , wherein the catalyst system displays an activity loss of less than 25% over a time period of up to 80 hours exposure to a reaction condition, and wherein the reaction condition comprises a temperature in the range of about 600° C. to about 1000° C. 10. The thermally stable catalyst system of claim 1 , wherein the stable metal is present in the thermally stable catalyst system in a range of from 5% to 7.5%. 11. The thermally stable catalyst system of claim 1 , wherein the stable metal comprises Ir. 12. The thermally stable catalyst system of claim 1 , wherein the stable metal comprises Ir and the catalytic metal comprises Pt. 13. The thermally stable catalyst system of claim 12 , wherein Ir weight percent and Pt weight percent are the same in the thermally stable catalyst system.