Magnesium phosphate cement based bipolar plate composite material

What is claimed is: 1. A bipolar plate composite material comprising: an inorganic cement based binder with grains; and an electrically conductive filler selected from a group consisting of graphite powder, carbon black, carbon nanotubes, carbon fibers, and any combination thereof; wherein a particle size of said electrically conductive filler is at least one order of magnitude smaller than a particle size of said grains in said inorganic cement based binder such that a distribution of particles of said electrically conductive filler are restricted in a space that is limited by particles of said inorganic cement based binder to form a percolated conductive pathway with an electrical conductivity greater than 100 S/cm, wherein said inorganic cement based binder has a pH value of 6-8 and a flexural strength greater than 10 MPa. 2. The bipolar plate composite material of claim 1 , wherein said inorganic cement based binder is magnesium phosphate cement based binder that includes magnesia, potassium di-hydrogen phosphate, borax and water; the magnesia-to-potassium di-hydrogen phosphate molar ratio of said inorganic cement based binder is 6-12:1. 3. The bipolar plate composite material of claim 2 , wherein said magnesia is dead burnt magnesia. 4. The bipolar plate composite material of claim 2 , wherein in said inorganic cement based binder, said borax is 5% of the weight of said magnesia; and water-to-cement ratio by weight is 0.2-0.3. 5. The bipolar plate composite material of claim 2 , wherein said inorganic cement based binder further comprises fly ash replacing 20-40% of mass of said magnesia in said inorganic cement based binder. 6. The bipolar plate composite material of claim 1 , wherein said electrically conductive filler is loaded at 40-56% of a total volume of said inorganic cement based binder. 7. The bipolar plate composite material of claim 2 further comprising: a composition of 52% by volume of said inorganic cement based binder and 48% by volume of said electrically conductive filler; wherein said electrically conductive filler comprises 45% by volume of said graphite powder; 1% by volume of said carbon fibers; and 2% by volume of said carbon nanotubes, wherein said inorganic cement based binder comprises a composition of 38.05% by weight of said magnesia; 22.93% by weight of said potassium di-hydrogen phosphate; 2.72% by weight of said borax; 16.3% by weight of fly ash; and 20% by weight of said water. 8. A bipolar plate composite material comprising: a magnesium phosphate cement based binder; and electrically conductive fillers; wherein said binder is a multi-component inorganic binder comprising magnesia, potassium di-hydrogen phosphate, borax and water; the magnesia-to-potassium di-hydrogen phosphate molar ratio of said binder is 6-12:1; wherein said fillers are selected from a group consisting of graphite powder, carbon black, carbon nanotubes, carbon fibers, and any combination thereof. 9. The bipolar plate composite material of claim 8 , wherein said binder further comprises fly ash replacing 20-40% of weight of said magnesia in said binder. 10. The bipolar plate composite material of claim 9 further comprising: a composition of 52% by volume of said binder and 48% by volume of said filler; wherein said fillers comprise 45% by volume of said graphite powder; 1% by volume of said carbon fibers; and 2% by volume of said carbon nanotubes, wherein said binder comprises a composition of 38.05% by weight of said magnesia; 22.93% by weight of said potassium di-hydrogen phosphate; 2. 72% by weight of said borax; 16.3% by weight of said fly ash; and 20% by weight of said water.