Lg energy solution, ltd. (20240234720). Positive Electrolyte Active Material for Secondary Battery, Preparation Method Thereof, and Lithium Secondary Battery Including Same simplified abstract

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Positive Electrolyte Active Material for Secondary Battery, Preparation Method Thereof, and Lithium Secondary Battery Including Same

Organization Name

lg energy solution, ltd.

Inventor(s)

Sang Min Park of Daejeon (KR)

Ji Hye Kim of Daejeon (KR)

Tae Gu Yoo of Daejeon (KR)

Wang Mo Jung of Daejeon (KR)

Gi Beom Han of Daejeon (KR)

Positive Electrolyte Active Material for Secondary Battery, Preparation Method Thereof, and Lithium Secondary Battery Including Same - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240234720 titled 'Positive Electrolyte Active Material for Secondary Battery, Preparation Method Thereof, and Lithium Secondary Battery Including Same

The abstract describes a lithium composite transition metal oxide containing nickel (Ni), cobalt (Co), and manganese (Mn), along with additional elements selected from specific groups, in the form of particles with a crystallite size of 170-300 nm.

  • The lithium composite transition metal oxide includes multiple elements like Zr, Al, V, Co, and Mg, as well as Ti, Y, Sr, Nb, Ba, and Ca.
  • The particles have a specific crystallite size range of 170-300 nm.

Potential Applications: This technology could be used in lithium-ion batteries, energy storage systems, and electric vehicles.

Problems Solved: This innovation addresses the need for high-performance and stable lithium composite transition metal oxides for advanced energy storage applications.

Benefits: The technology offers improved energy storage capacity, stability, and efficiency in lithium-ion batteries, leading to enhanced performance in various electronic devices.

Commercial Applications: This technology has significant commercial potential in the battery industry, particularly in the development of high-performance lithium-ion batteries for electric vehicles and renewable energy storage systems.

Questions about Lithium Composite Transition Metal Oxide:

1. How does the addition of specific elements impact the performance of lithium composite transition metal oxides? 

  - The addition of elements like Zr, Al, V, Co, and Mg can enhance the stability and energy storage capacity of the material.

2. What are the key factors influencing the crystallite size of the particles in lithium composite transition metal oxides? 

  - The crystallite size of the particles is influenced by the composition of the material and the synthesis process used to produce them.


Original Abstract Submitted

a lithium composite transition metal oxide includes nickel (ni), cobalt (co), and manganese (mn), wherein the lithium composite transition metal oxide includes two or more elements selected from the group consisting of zr, al, v, co, and mg and additional two or more elements selected from the group consisting of ti, y, sr, nb, ba, and ca, and the lithium composite transition metal oxide is in a form of a particle having a crystallite size of 170-300 nm.

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