Fluorides in nanoporous, electrically-conductive scaffolding matrix for metal and metal-ion batteries

1 . (canceled) 2 . A battery electrode composition, comprising: a composite particle comprising: an active fluoride-comprising material provided to store and release ions during battery operation; and an electrically-conductive scaffolding matrix within which the active fluoride-comprising material is disposed, wherein the scaffolding matrix is comprised of over about 90% sp 2 -bonded carbon atoms. 3 . The battery electrode composition of claim 2 , wherein the scaffolding matrix exhibits a Young's modulus of over about 5 MPa. 4 . The battery electrode composition of claim 2 , wherein the scaffolding matrix comprises pores with a pore volume fraction in a range of about 70 vol. % to about 95 vol. % relative to a total volume of the scaffolding matrix. 5 . The battery electrode composition of claim 4 , wherein over about 50 vol. % of the pores exhibit pore sizes in a range of about 0.5 nm to about 10 nm. 6 . The battery electrode composition of claim 5 , wherein about 80 vol. % or more of the pores exhibit pore sizes in the range of 0.5 nm to 10 nm. 7 . The battery electrode composition of claim 2 , wherein the composite particle is coated with a protective layer comprising an electrolyte solvent-impermeable shell material conductive to Li-ions. 8 . The battery electrode composition of claim 7 , wherein the protective layer comprises a metal oxide. 9 . The battery electrode composition of claim 8 , wherein the metal oxide exhibits a layered microstructure. 10 . The battery electrode composition of claim 7 , wherein the protective layer comprises a metal oxyfluoride. 11 . The battery electrode composition of claim 7 , wherein the protective layer comprises carbon (C). 12 . The battery electrode composition of claim 7 , wherein the protective layer comprises tungsten (W). 13 . The battery electrode composition of claim 2 , wherein the active fluoride-comprising material comprises iron (Fe). 14 . The battery electrode composition of claim 2 , wherein the active fluoride-comprising material comprises two or more transition metals. 15 . A method of synthesizing the battery electrode composition of claim 2 , comprising: performing one or more processes to produce the composite particle. 16 . The method of claim 15 , wherein the one or more processes comprise pyrolyzing a carbon-comprising organic precursor to produce a pyrolyzed carbon-comprising material. 17 . The method of claim 16 , wherein the one or more processes further comprise chemical activation of the pyrolyzed carbon-comprising material. 18 . The method of claim 16 , wherein the one or more processes further comprise physical activation of the pyrolyzed carbon-comprising material. 19 . The method of claim 15 , wherein the one or more processes comprise producing the active fluoride-comprising material via a reaction between a metal or a metal oxide with fluorine or a fluorinating agent. 20 . The method of claim 19 , wherein the reaction proceeds in a gaseous phase. 21 . The method of claim 19 , wherein the reaction proceeds in a liquid phase. 22 . The method of claim 15 , wherein the one or more processes comprise producing the active fluoride-comprising material via an ion exchange reaction between an active fluoride-forming element and a soluble fluoride.