From 2021 to 2030, global production of lithiumion batteries is projected to increase fivefold, reaching 5,500 GWh, with electric vehicle batteries accounting for nearly 80% of all lithium-ion battery production.This rapid growth presents opportunities and challenges across the entire supply chain,
From 2021 to 2030, global production of lithiumion batteries is projected to increase fivefold, reaching 5,500 GWh, with electric vehicle batteries accounting for nearly 80% of all lithium-ion battery production.This rapid growth presents opportunities and challenges across the entire supply chain,
From 2021 to 2030, global production of lithiumion batteries is projected to increase fivefold, reaching 5,500 GWh, with electric vehicle batteries accounting for nearly 80% of all lithium-ion battery production.This rapid growth presents opportunities and challenges across the entire supply chain,
From 2021 to 2030, global production of lithiumion batteries is projected to increase fivefold, reaching 5,500 GWh, with electric vehicle batteries accounting for nearly 80% of all lithium-ion battery production.This rapid growth presents opportunities and challenges across the entire supply chain,
From 2021 to 2030, global production of lithiumion batteries is projected to increase fivefold, reaching 5,500 GWh, with electric vehicle batteries accounting for nearly 80% of all lithium-ion battery production.This rapid growth presents opportunities and challenges across the entire supply chain,
China's chemical companies possess strong capabilities in refining and chemical production, offering a variety of isoparaffinic solvents similar to the Isopar series. For example, Isopar L can be compared to domestic isododecane (IPC12), and other domestic isoparaffinic solvent series include IPC10, IPC12, IPC13, IPC16, and IPC20. These domestic solvents are typically designed for diverse applications, including coatings, inks, cleaners, personal care products, and the electronics industry.