Incorporation of lithium-ion source material into an activated carbon electrode for a capacitor-assisted battery

1 . A hybrid lithium-ion battery/capacitor electrochemical cell comprising (i) a group of two electrically-connected anodes formed of porous layers of graphite particles, (ii) a cathode formed of a porous layer of particles of a lithium compound electrically-connected to a capacitor electrode formed of a porous layer of particles of activated carbon, the capacitor electrode being placed between the anodes with the cathode facing one of the anodes, (iii) porous separators physically separating the electrodes in a closely-spaced assembly, and (iv) a non-aqueous liquid electrolyte, conductive of lithium cations and compatible anions, infiltrating the porous layers of each of the electrodes and the inter-placed separators to permit the transport of lithium cations and the compatible anions to and from each of the electrode particle layers as the electrochemical cell is being charged and discharged; the capacitor further comprising particles of a lithium compound, mixed with the activated carbon particles, the composition and quantity of the particles of the lithium compound being selected to contribute lithium ions to the electrolyte during formation cycling of the hybrid cell when the graphite particles in the anodes are initially being lithiated to form a solid electrolyte interface on surfaces of the graphite particles. 2 . A hybrid lithium-ion battery/capacitor electrochemical cell as stated in claim 1 in which the weight of the particles of the lithium compound initially mixed with the activated carbon particles is in the range of two percent to seventy percent of the combined weights of the activated carbon particles and the particles of the lithium compound. 3 . A hybrid lithium-ion battery/capacitor electrochemical cell as stated in claim 1 in which the particles of the lithium compound mixed with the activated carbon particles of the capacitor electrode are one of a lithium compound selected from 3,4-dihydroxybenzonitrile dilithium, lithium salts including azides (LiN 3 ), oxocarbons, dicarboxylates, and hydrazides, lithium nitride (Li 3 N), lithium nickel oxide (e.g., Li 0.65 N 1.35 O 2 , Li 5 FeO 4 , Li 5 ReO 6 , Li 6 CoO 4 , Li 3 V 2 (PO 4 ) 3 , and other lithium transition metal oxides. 4 . A hybrid lithium-ion battery/capacitor electrochemical cell as stated in claim 3 in which the weight of the particles of the lithium compound mixed with the activated carbon particles of the capacitor electrode is in the range of two to thirty percent of the combined weights of the activated carbon particles and the particles of the lithium compound. 5 . A hybrid lithium-ion battery/capacitor electrochemical cell as stated in claim 1 in which the particles of the lithium compound mixed with the activated carbon particles of the capacitor electrode are one of lithium fluoride and LiF/transition metal composites such as Li 2 O/Co, Li 2 O/Fe, and Li 2 O/Ni, Li 2 S, and Li 2 S metal composites such as Li 2 S/Co, lithium cuprate (Li 2 CuO 2 ), Li 2 NiO 2 , Al 2 O 3 -coated Li 2 NiO 2 and other oxides coated with Li 2 NiO 2 and Li 2 MoO 3 . 6 . A hybrid lithium-ion battery/capacitor electrochemical cell as stated in claim 5 in which the weight of the particles of the lithium compound mixed with the activated carbon particles of the capacitor electrode is in the range of two to thirty percent of the combined weights of the activated carbon particles and the particles of the lithium compound. 7 . A hybrid lithium-ion battery/capacitor electrochemical cell as stated in claim 1 in which the particles of the lithium compound mixed with the activated carbon particles of the capacitor electrode are one of Li 2 RuO 3 , LiCoO 2 , LiNi (l-x-y) Co x Mn y O 2 , LiNi (l-x-y) Co x Al y O 2 , and LiFePO 4 . 8 . A hybrid lithium-ion battery/capacitor electrochemical cell as stated in claim 7 in which the weight of the particles of the lithium compound mixed with the activated carbon particles of the capacitor electrode is in the range of two to seventy percent of the combined weights of the activated carbon particles and the particles of the lithium compound. 9 . A hybrid lithium-ion battery/capacitor electrochemical cell as stated in claim 1 in which the electrolyte is a non-aqueous solution of LiPF 6 . 10 . A hybrid lithium-ion battery/capacitor electrochemical cell comprising (i) a group of two electrically-connected anodes formed of porous layers of graphite particles, (ii) a cathode formed of a porous layer of particles of lithium iron phosphate electrically-connected to a capacitor electrode formed of a porous layer of particles of activated carbon, the capacitor electrode being placed between the anodes with the cathode facing one of the anodes, (iii) porous separators physically separating the electrodes in a closely-spaced assembly, and (iv) a non-aqueous liquid electrolyte, conductive of lithium cations and compatible anions, infiltrating the porous layers of each of the electrodes and the inter-placed separators to permit the transport of lithium cations and the compatible anions to and from each of the electrode particle layers as the electrochemical cell is being charged and discharged; the capacitor electrode further comprising particles of a lithium compound, mixed with the activated carbon particles, the composition and quantity of the particles of the lithium compound being selected to contribute lithium ions to the electrolyte during formation cycling of the hybrid cell when the graphite particles in the anodes are initially being lithiated to form a solid electrolyte interface on surfaces of the graphite particles. 11 . A hybrid lithium-ion battery/capacitor electrochemical cell as stated in claim 10 in which the particles of the lithium compound mixed with the activated carbon particles of the capacitor electrode are one of Li 2 RuO 3 , LiCoO 2 , LiNi (l-x-y) Co x Mn y O 2 , LiNi (l-x-y) Co x Al y O 2 , and LiFePO 4 . 12 . A hybrid lithium-ion battery/capacitor electrochemical cell as stated in claim 11 in which the weight of the particles of the lithium compound mixed with the activated carbon particles of the capacitor electrode is in the range of two to seventy percent of the combined weights of the activated carbon particles and the particles of the lithium compound.