Battery with an in-situ activation plated lithium anode
First Claim
1. A thin-film rechargeable battery, comprising:
- a cathode film including a lithium transition metal oxide;
an electrolyte film coupled to the cathode film, the electrolyte film being substantially non-reactive with oxidizing materials and with metallic lithium;
an anode current collector, which substantially avoids formation of inter-metallic compounds with lithium, is coupled to the electrolyte film; and
an overlying layer, which is substantially non-reactive with lithium, coupled to the anode current collector, wherein the thin-film rechargeable battery is activated during a charge by electrochemical plating of a metallic lithium anode between the anode current collector and the electrolyte film.
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Accused Products
Abstract
A thin-film rechargeable battery includes a cathode film; including a lithium transition metal oxide, an electrolyte film coupled to the cathode film, the electrolyte film being substantially nonreactive with oxidizing materials and with metallic lithium, an anode current collector coupled to the electrolyte film; and an overlying layer coupled to the anode current collector. The thin-film rechargeable battery is activated during an initial charge by electrochemical plating of a metallic lithium anode between the anode current collector and the electrolyte film. The plating of the anode during charging and the stripping of the anode layer during discharging are essentially reversible. Therefore, almost no diminishment of discharge capacity occurs, even after many discharge and charge cycles. Other advantages include no need for special packaging for shipping and handling. The battery eliminates the main drawbacks of the thin-film Li-ion battery (high capacity loss during the initial charge) and of the thin-film lithium battery (high air-sensitivity at all times, temperature limited to ˜100° C., expensive preparation of the lithium anode). The battery survives processing conditions that exceed those of a solder reflow process without any signs of degradation.
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Citations
13 Claims
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1. A thin-film rechargeable battery, comprising:
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a cathode film including a lithium transition metal oxide;
an electrolyte film coupled to the cathode film, the electrolyte film being substantially non-reactive with oxidizing materials and with metallic lithium;
an anode current collector, which substantially avoids formation of inter-metallic compounds with lithium, is coupled to the electrolyte film; and
an overlying layer, which is substantially non-reactive with lithium, coupled to the anode current collector, wherein the thin-film rechargeable battery is activated during a charge by electrochemical plating of a metallic lithium anode between the anode current collector and the electrolyte film. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
substantially reversible stripping of the metallic lithium anode during a first discharge of the thin-film rechargeable battery;
electrochemical plating of a plurality of subsequently plated metallic lithium anodes during corresponding charges of the thin-film rechargeable battery, the plating of each of the subsequently plated metallic lithium anodes occurring after a corresponding discharge of the thin-film rechargeable battery; and
substantially reversible stripping of the subsequently plated metallic lithium anodes during subsequent discharges of the thin-film rechargeable battery.
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3. The thin-film rechargeable battery of claim 1, wherein the overlying layer, the anode current collector and the electrolyte film are configured to confine the metallic lithium anode.
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4. The thin-film rechargeable battery of claim 1, further comprising:
a cathode current collector coupled to the cathode film; and
a substrate coupled to the cathode current collector.
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5. The thin-film rechargeable battery of claim 1, wherein the overlying layer acts as an insulator;
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provides an impervious barrier to atomic lithium transport; and
is responsive to the electrochemical plating of a metallic lithium anode so as to maintain a substantially flat surface.
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6. The thin-film rechargeable battery of claim 1, wherein the overlayer includes at least one material selected from the group consisting of lithium phosphorus oxynitride, aluminium nitride, BeO, MgO, CaO, SrO, BaO, BN, AlN, SiO2, Si3N4, Si2N2O, Sc2O3, Y2O3, La2O3, ThO2, Li2Be2O3, Li4BeO3, Li5AlO4, Li4SiO4 Li8SiO6, LiScO2, LiYO2, Li8ZrO6, LiCeO2, LiF, LiCI, LiBr, LiI, Be, Zr, Ta, W, polytetrafluoroethylene, polyethylene, and parylene.
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7. The thin-film rechargeable battery of claim 1, wherein:
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the electrolyte film comprises lithium phosphorus oxynitride having a thickness of from approximately 1 to approximately 2 microns; and
the overlying layer comprises lithium phosphorus oxynitride having a thickness of from approximately 0.1 to approximately 3.0 microns.
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8. The thin-film rechargeable battery of claim 1, having less than five percent discharge capacity loss after:
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heating at approximately 250°
C. for approximately ten minutes prior to the initial charge; and
at least fifty charge and discharge cycles in a voltage range of from approximately 4.5 to approximately 2.5 volts.
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9. The thin-film rechargeable battery of claim 1, wherein:
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the cathode film has a thickness in a range from approximately 0.01 to approximately 5.0 microns; and
the lithium transition metal oxide comprises lithium and oxygen, and at least one element selected from the groups consisting of columns IB-VIII B of the periodic table.
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10. The thin-film rechargeable battery of claim 1, further comprising a protective coating coupled to the overlying layer, the protective coating being substantially impervious to moisture and substantially nonreactive with the overlying layer.
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11. The thin-film rechargeable battery of claim 1, wherein:
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the anode current collector has a thickness of from approximately 0.05 to approximately 2 microns; and
the anode current collector includes at least one member selected from the group consisting of scandium, titanium, vanadium, chromium, manganese, iron, cobalt, nickel, copper, yttrium, zirconium, lanthanum, hafnium, molybdenum, tantalum, tungsten, and titanium nitride.
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12. The thin-film rechargeable battery of claim 2, wherein the overlying layer accommodates volume changes during the reversible stripping and the electrochemical plating.
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13. The thin-film rechargeable battery of claim 4, wherein the cathode current collector:
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includes a noble metal; and
has a thickness in the range of from approximately 0.02 to approximately 1 micron.
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Specification