Lithium batteries with new manganese oxide materials as lithium intercalation hosts

Assignee

• Regents of the University of Minnesota · US

Inventors

• Jun Xu · Gaithersburg, US
• Boone B. Owens · Wrightsville Beach, US
• William H. Smyrl · New Brighton, US

Key dates

Classification

• Technology area (CPC Y)Emerging Cross-Sectional Technologies
• CPC primaryY02E60/10
• WIPO fieldElectrical machinery, apparatus, energy
• WIPO sectorElectrical engineering

Abstract

Amorphous manganese dioxide cathodes for lithium batteries with lithium metal or other lithium-containing anodes, the cathode being synthesized by a sol-gel approach involving reduction of sodium permanganate with fumaric acid disodium salt carried out at room temperature to ensure an amorphous structure. The resulting amorphous manganese dioxide has a nanoporous structure and a high internal surface area of 350 m2/g. The amorphous manganese dioxide can electrochemically intercalate more than 1.6 moles of lithium per mole of manganese, and its theoretical capacity is 2 moles of lithium per mole of manganese. The host structure remains amorphous in the entire intercalation range and the intercalation process is reversible. Lithium battery cathodes comprising the amorphous manganese dioxide, a carbon powder and a binder provide a charge capacity in the level of 436 mAh/g and store energy at the level of 1056 mWh/g. Copper doped amorphous manganese oxides showed significant improvement in cycling performance.