ENERGY STORAGE DEVICE HAVING CELL WITH COATING

Organization Name

DEERE & COMPANY

Inventor(s)

Aneil Pokharel of Raleigh NC (US)

ENERGY STORAGE DEVICE HAVING CELL WITH COATING - A simplified explanation of the abstract

This abstract first appeared for US patent application 18470533 titled 'ENERGY STORAGE DEVICE HAVING CELL WITH COATING

Simplified Explanation

An energy storage device with a metal substrate or sleeve, coated with a thermally conductive but electrically non-conductive material, containing multiple energy storage cells in a block.

• The energy storage device has a metal substrate or sleeve.
• The coating on the metal is thermally conductive but electrically non-conductive.
• The device includes multiple energy storage cells in a block configuration.

Key Features and Innovation

• Metal substrate or sleeve for energy storage cell.
• Coating that is thermally conductive but electrically non-conductive.
• Block configuration with multiple energy storage cells.

Potential Applications

This technology could be used in:

• Electric vehicles
• Renewable energy storage systems
• Portable electronic devices

Problems Solved

• Enhanced thermal conductivity
• Improved safety with electrically non-conductive coating
• Efficient energy storage in a block configuration

Benefits

• Increased energy storage efficiency
• Enhanced safety features
• Versatile applications in various industries

Commercial Applications

• "Thermally Conductive Energy Storage Device for Various Industries"

Prior Art

Further research can be conducted in the field of energy storage devices with metal substrates and thermally conductive coatings.

Frequently Updated Research

Stay updated on advancements in energy storage technologies and materials for improved efficiency and safety.

Questions about Energy Storage Devices

How does the thermally conductive coating improve the performance of the energy storage device?

The thermally conductive coating helps dissipate heat efficiently, preventing overheating and improving overall performance.

What are the potential safety benefits of using an electrically non-conductive coating on the energy storage cell?

The electrically non-conductive coating reduces the risk of short circuits and electrical malfunctions, enhancing the safety of the device.

Original Abstract Submitted

An energy storage device including an energy storage cell having a metal substrate or a metal sleeve. The energy storage cell includes a coating disposed on the metal substrate or metal sleeve, wherein the coating includes one of an electrolytic deposited coating, an electroless deposited coating, or an applied coating. The coating is electrically non-conductive but thermally conductive. The coated energy storage cell include an exposed positive electrode, an exposed negative electrode. A plurality of energy storage cells is located in a block having a plurality of compartments, wherein one cell of each of the plurality of energy storage cells is disposed in one of the plurality of compartments to provide an energy storage module.