NITRIDED TERNARY PLATINUM (Pt) CONTAINING NANOPARTICLE CATALYST FOR FUEL CELLS

What is claimed is: 1 . A catalyst comprising: nitrided ternary platinum (Pt) containing nanoparticles comprising platinum (Pt), nickel (Ni), and cobalt (Co) having an intermetallic L1 0 structure (IM-PtNiCON) loaded on a mesoporous carbon support (MPC-HPDA) comprising a predetermined hierarchical pore distribution architecture, wherein the nitrided ternary platinum (Pt) containing nanoparticles have an average particle diameter between about 3.0 nm and about 8.0 nm, and wherein the predetermined hierarchical pore distribution architecture of the mesoporous carbon support comprises a plurality of pores with a majority percentage of the plurality of pores having an average pore diameter between about 3.0 nm to about 8.0 nm, and at least a portion of the nitrided ternary platinum (Pt) containing nanoparticles is disposed within the majority percentage of the plurality of pores having an average diameter between about 3.0 nm to about 8.0 nm. 2 . The catalyst according to claim 1 , wherein the nitrided ternary platinum (Pt) containing nanoparticles have a core/shell structure and wherein the core comprises the intermetallic L1 0 structure (IM-PtNiCON) nanoparticles loaded on the mesoporous carbon support comprising a predetermined hierarchical pore distribution architecture (MPC-HPDA) encompassed by a platinum shell. 3 . The catalyst according to claim 1 , wherein the nitrided ternary platinum (Pt) containing nanoparticles have an average diameter between about 4.0 nm and about 7.0 nm. 4 . The catalyst according to claim 1 , wherein the majority percentage of the plurality of pores of the mesoporous carbon support are mesopores having an average diameter between about 3.0 to 8.0 nm is more than 70%. 5 . The catalyst according to claim 1 , wherein the plurality of pores of the mesoporous carbon support comprises between about 5% and about 30% of micropores having an average diameter of less than about 3.0 nm. 6 . The catalyst according to claim 1 , wherein the plurality of pores of the mesoporous carbon support comprises between about 10% and about 25% of micropores having an average diameter of less than about 3.0 nm. 7 . The catalyst according to claim 1 , wherein: the plurality of pores of the mesoporous carbon support comprises between about 5% to about 30% micropores with an average diameter of less than about 3.0 nm; the plurality of pores of the mesoporous carbon support comprises between about 50% to about 95% mesopores with an average diameter between about 3.0 nm and about 8.0 nm; and the plurality of pores of the mesoporous carbon support comprises less than about 25% of macropores with an average diameter greater than about 8.0 nm. 8 . A method for making a catalyst for a fuel cell, wherein the catalyst comprises nitrided ternary platinum (Pt) containing nanoparticles comprising platinum (Pt), nickel (Ni), and cobalt (Co) having an intermetallic L1 0 structure (IM-PtNiCON) loaded on a mesoporous carbon support comprising a predetermined hierarchical pore distribution architecture (MPC-HPDA), said method comprising: annealing a mixture of metal precursors and the mesoporous carbon comprising a predetermined hierarchical pore distribution under a NH 3 gas flow at a temperature between about 400° C. to about 820° C. for up to about 9 hours, wherein the metal precursors, comprise platinum, nickel, and cobalt metals, wherein the nitrided ternary platinum (Pt) containing nanoparticles have an average diameter between about 3.0 nm to about 8.0 nm, and wherein the predetermined hierarchical pore distribution architecture of the mesoporous carbon support comprises a plurality of pores with a majority percentage of the plurality of pores having an average diameter of less than about 8.0 nm, and at least a portion of the nitrided ternary (Pt) containing nanoparticles are disposed within the majority percentage of the plurality of pores having an average diameter between about 3.0 nm to about 8.0 nm. 9 . The method according to claim 8 , wherein the nitrided ternary platinum (Pt) containing nanoparticles have a core/shell structure and wherein the core comprises said intermetallic L1 0 structure (IM-PtNiCON) nanoparticles loaded on the mesoporous carbon support comprising a predetermined hierarchical pore distribution architecture (MPC-HPDA) encompassed by a platinum shell. 10 . The method according to claim 8 , wherein the annealing is a temperature between about 560° C. to about 620° C. 11 . The method according to claim 8 , wherein the annealing is between about 5 hours to about 9 hours. 12 . The method according to claim 8 , wherein the annealing is at a temperature of 620° C. for 5 hours. 13 . The method according to claim 8 , wherein the nitrided ternary platinum (Pt) containing nanoparticles have an average diameter between about 4.0 nm and about 5.0 nm. 14 . The method according to claim 8 , wherein the majority percentage of the plurality of pores of the mesoporous carbon support are mesopores having an average diameter between about 3.0 nm and 8.0 nm. 15 . The method according to claim 8 , wherein the majority percentage of the plurality of pores of the mesoporous carbon support having an average diameter between about 3.0 to 8.0 nm is more than 70%. 16 . The method according to claim 8 , wherein the plurality of pores of the mesoporous carbon support comprises between about 5% and about 30% of micropores having an average diameter of less than about 3.0 nm. 17 . The method according to claim 8 , wherein the plurality of pores of the mesoporous carbon support comprises between about 10% and about 25% of micropores having an average diameter of less than about 3.0 nm. 18 . The method according to claim 8 , wherein: the pores of the mesoporous carbon support comprise between about 5% to about 30% micropores with an average diameter of less than about 3.0 nm; the pores of the mesoporous carbon comprise between about 50% to about 95% mesopores with an average diameter between about 3.0 nm and about 8.0 nm; and the pores of the mesoporous carbon comprise less than about 25% of macropores with an average diameter greater than about 8.0 nm. 19 . A fuel cell comprising: an anode, a cathode, and a polymer electrolyte membrane disposed between the anode and the cathode; and a cathode catalyst disposed on the cathode, wherein the cathode catalyst comprises nitrided ternary platinum (Pt) containing nanoparticles comprising platinum (Pt), nickel (Ni), and cobalt (Co) having an intermetallic L1 0 structure (IM-PtNiCON) loaded on a mesoporous carbon support comprising a predetermined hierarchical pore distribution architecture (MPC-HPDA), wherein the nitrided ternary platinum (Pt) containing nanoparticles have an average diameter between about 3.0 nm to about 8.0 nm, and wherein the predetermined hierarchical pore distribution architecture of the mesoporous carbon support comprises a plurality of pores with a majority percentage of the plurality of pores having an average diameter of less than about 8.0 nm, and at least a portion of the nitrided ternary platinum (Pt) containing nanoparticles are disposed within the majority percentage of the plurality of pores having an average diameter less than about 8.0 nm. 20 . The fuel cell according to claim 19 , wherein: the plurality of pores of the mesoporous carbon support comprises between about 5% to about 30% micropores with an average diameter of less than about 3.0 nm; the plurality of pores of the mesoporous carbon comp