Gm global technology operations llc (20240243259). NICKEL-RICH ELECTROACTIVE MATERIALS simplified abstract
NICKEL-RICH ELECTROACTIVE MATERIALS
Organization Name
gm global technology operations llc
Inventor(s)
Mengyuan Chen of Madison Heights MI (US)
Bradley R. Frieberg of Farmington Hills MI (US)
Xiaosong Huang of Novi MI (US)
Nicholas Paul William Pieczonka of Windsor, Ontario (CA)
NICKEL-RICH ELECTROACTIVE MATERIALS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240243259 titled 'NICKEL-RICH ELECTROACTIVE MATERIALS
Simplified Explanation: The patent application describes an electroactive material for an electrochemical cell that includes conductive oxygen storage material coatings or layers. These materials help improve the thermal stability of the electroactive materials.
- The electroactive material includes a layer of electroactive material particles.
- Some particles may have a coating with conductive oxygen storage material.
- A conductive oxygen storage material layer may be on the surfaces of the electroactive material layer.
Key Features and Innovation:
- Incorporation of conductive oxygen storage material coatings or layers in electroactive materials.
- Improved thermal stability of the electroactive materials.
- Enhanced performance and longevity of electrochemical cells.
Potential Applications:
- Battery technology
- Fuel cells
- Energy storage systems
Problems Solved:
- Enhancing thermal stability of electroactive materials
- Improving performance of electrochemical cells
- Extending the lifespan of energy storage systems
Benefits:
- Increased efficiency of electrochemical cells
- Longer lifespan of batteries and fuel cells
- Enhanced safety in energy storage applications
Commercial Applications: Potential commercial applications include:
- Electric vehicles
- Portable electronic devices
- Renewable energy systems
Prior Art: Readers can explore prior research on conductive oxygen storage materials in electroactive materials and their impact on thermal stability in electrochemical cells.
Frequently Updated Research: Stay updated on the latest advancements in conductive oxygen storage materials and their applications in electrochemical cells.
Questions about Electroactive Materials with Conductive Oxygen Storage: 1. How do conductive oxygen storage material coatings improve the thermal stability of electroactive materials? 2. What are the potential long-term benefits of using these materials in energy storage systems?
Original Abstract Submitted
an electroactive material for an electrochemical cell includes one or more conductive oxygen storage material coatings or layers. the electroactive material includes a plurality of electroactive material particles disposed to form an electroactive material layer. in certain variations, at least a portion of the plurality of electroactive material particles may have a coating that includes a conductive oxygen storage material. in other variations, a conductive oxygen storage material layer may be disposed on one or more surfaces of the electroactive material layer. in still other variations, at least a portion of the plurality of electroactive material particles may have a coating that includes a conductive oxygen storage material, and a conductive oxygen storage material layer may be disposed on one or more surfaces of the electroactive material layer. the one or more conductive oxygen storage material coatings or layers may help to improve the thermal stability of the electroactive materials.
