Batteries
LG developing technology to produce cathode without precursors
Hyung-Kyu Kim
Aug 01, 2023 (Gmt+09:00)
![](data:image/svg+xml;charset=utf-8,<svg height="368px" width="700px" xmlns="http://www.w3.org/2000/svg" version="1.1"/>)
LG Chem Ltd. has embarked on a new technology development to produce cathodes without precursors in a bid to slash battery manufacturing costs and meet carbon neutrality commitments, an LG Chem official said on Tuesday.
A precursor is an ingredient of a cathode, one of four key materials of an electric vehicle battery. It accounts for 60-70% of the cost of manufacturing cathodes.
A precursor is a chemical compound of metals such as nickel, cobalt and manganese and turns into a cathode with the addition of lithium.
Precursors contain nitrogen dioxide and sulfur dioxide, so they emit greenhouse gases during the manufacturing process, while consuming more electricity than other battery materials.
![](data:image/svg+xml;charset=utf-8,<svg height="400px" width="700px" xmlns="http://www.w3.org/2000/svg" version="1.1"/>)
Cathodes without precursors will be regarded as eco-friendly because they will not generate wastewater or toxic gas.
“We’re developing the technology at our client’s request to produce low-carbon products,” the LG Chem official told The Korea Economic Daily.
“It hasn’t been decided yet when we can commercialize it.”
LG uses the coprecipitation technique to make precursors, in which more than one compound from a solution undergoes the process together. A precursor is produced after the mineral solution containing the compounds is cleaned and dried.
By comparison, the new technology under development will dissolve both metals and lithium simultaneously and take cathodes in a liquid form in the wet grinding process.
![](data:image/svg+xml;charset=utf-8,<svg height="395px" width="700px" xmlns="http://www.w3.org/2000/svg" version="1.1"/>)
Once the technology is commercialized, South Korean battery makers will not need to rely on the China-dominated precursor value chain. China commands 90% of the global precursor market.
Cathode production eliminating the precursor manufacturing process will significantly improve production yields and cut battery manufacturing costs, according to SNE Research.
The research house said it will be also easier to recover metal from used batteries made from cathodes without precursors.
LG Chem will diversify its cathode product portfolio to meet customer demand.
It is now building precursor plants in partnership with China’s Huayou Cobalt and Korea Zinc Inc.
Write to Hyung-Kyu Kim at khk@hankyung.com
Yeonhee Kim edited this article.
More To Read
-
LG Chem produces single-crystal cathodes; to raise $1.5 bn in bonds
Jun 26, 2023 (Gmt+09:00)
-
POSCO-GM JV to double cathode output, build precursor plant
Jun 02, 2023 (Gmt+09:00)
-
LG Chem breaks ground on 4th cathode material plant in S.Korea
May 31, 2023 (Gmt+09:00)
-
LG Chem, China’s Huayou Cobalt to build $923 million precursor plant
Apr 14, 2023 (Gmt+09:00)
-
SK On, EcoPro, China’s GEM to jointly build precursor factory
Mar 23, 2023 (Gmt+09:00)
-
LG Chem to build $3.2 billion US cathode plant in Tennessee
Nov 22, 2022 (Gmt+09:00)
-
LG Chem, Korea Zinc affiliate KEMCO to launch battery precursor JV
Jun 02, 2022 (Gmt+09:00)
![](data:image/svg+xml;charset=utf-8,<svg height="166px" width="256px" xmlns="http://www.w3.org/2000/svg" version="1.1"/>)