Methods of charging lithium sulfur cells
First Claim
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1. A method of charging a lithium-sulfur electrochemical cell wherein the method comprises:
- (A) supplying electrical energy to the cell at a constant current;
(B) monitoring the voltage during charging; and
(C) terminating the charge when the monitored voltage is in the range of about 2.35 volts to about 2.7 volts;
and wherein the cell comprises;
(a) a cathode comprising an electroactive sulfur-containing material;
(b) an anode comprising lithium; and
(c) a nonaqueous electrolyte, wherein the electrolyte comprises;
(i) one or more nonaqueous solvents selected from the group consisting of acyclic ethers, cyclic ethers, polyethers, and sulfones; and
(ii) one or more N—
O additives.
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Abstract
Disclosed is a method of charging a lithium-sulfur electrochemical cell wherein the lithium-sulfur cell comprises a cathode comprising an electroactive sulfur-containing material, an anode comprising lithium, and a nonaqueous electrolyte.
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Citations
20 Claims
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1. A method of charging a lithium-sulfur electrochemical cell wherein the method comprises:
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(A) supplying electrical energy to the cell at a constant current; (B) monitoring the voltage during charging; and (C) terminating the charge when the monitored voltage is in the range of about 2.35 volts to about 2.7 volts; and wherein the cell comprises; (a) a cathode comprising an electroactive sulfur-containing material; (b) an anode comprising lithium; and (c) a nonaqueous electrolyte, wherein the electrolyte comprises; (i) one or more nonaqueous solvents selected from the group consisting of acyclic ethers, cyclic ethers, polyethers, and sulfones; and (ii) one or more N—
O additives.- View Dependent Claims (2, 3, 4, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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5. A method of charging a lithium-sulfur electrochemical cell wherein the method comprises:
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(A) supplying electrical energy to the cell at a constant current; (B) monitoring the voltage during charging; (C) supplying electrical energy until the monitored voltage reaches about 2.5 volts; (D) holding the cell voltage at about 2.5 volts while monitoring the current density; and (E) terminating the charge when the charge current density is less than 0.025 mA/cm2; and wherein the cell comprises; (a) a cathode comprising an electroactive sulfur-containing material; (b) an anode comprising lithium; and (c) a nonaqueous electrolyte, wherein the electrolyte comprises; (i) one or more nonaqueous solvents selected from the group consisting of acyclic ethers, cyclic ethers, polyethers, and sulfones; and (ii) one or more N—
O additives.- View Dependent Claims (6, 7)
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19. A method of charging a lithium-sulfur electrochemical cell wherein the method comprises:
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(A) supplying electrical energy to the cell at a constant current; (B) monitoring the voltage during charging; (C) calculating the rate of change of voltage with time (dV/dt); and (D) terminating the charge when the value of dV/dt increases by more than 5 times; and wherein the cell comprises; (a) a cathode comprising an electroactive sulfur-containing material; (b) an anode comprising lithium; and (c) a nonaqueous electrolyte, wherein the electrolyte comprises; (i) one or more nonaqueous solvents selected from the group consisting of acyclic ethers, cyclic ethers, polyethers, and sulfones; (ii) one or more lithium salts; and (iii) one or more N—
O additives.- View Dependent Claims (20)
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Specification