Samsung SDI Develops New Lithium Polymer Batteries, Surpassing Traditional Longevity Limits

VCsSuckMyLiquidity · 2026-02-26T14:13:56+00:00

Samsung SDI has achieved a breakthrough in lithium polymer batteries, improving longevity and safety through a polymer gel electrolyte containing fluorine developed in partnership with Columbia University. This technology addresses dendrite formation, enhancing performance and paving the way for future applications in electric vehicles and energy storage, despite challenges in mass production.

VCsSuckMyLiquidity

2026-02-26 14:13:56

Abstract generation in progress

South Korean battery manufacturer Samsung SDI has announced a breakthrough in lithium polymer batteries, offering significantly longer lifespan and improved safety compared to current battery technologies. Through strategic collaboration with Columbia University, Samsung SDI has successfully developed a fluorine-containing polymer gel electrolyte, opening new possibilities for the next generation of high-energy batteries.

Superior Advantages of Lithium Polymer Metal Batteries

Lithium polymer battery technology has achieved the highest energy density among existing battery technologies. Compared to the widely used traditional NCA lithium-ion batteries, these batteries provide over 1.6 times more energy, enabling new applications in electric vehicles, portable devices, and industrial energy storage. This increase in energy density can help devices run longer on a single charge or allow for more compact designs with the same capacity.

Solving Dendrite Issues: The Key to Enhanced Performance

One long-standing obstacle for lithium metal batteries is dendrite formation—spiky crystalline structures that develop on the anode surface during charging. These dendrites not only reduce battery performance but also pose safety risks such as internal short circuits. The fluorine-based polymer gel electrolyte developed by Samsung SDI effectively prevents the formation of these structures, thereby protecting the integrity of the lithium metal anode over multiple charge-discharge cycles.

Commercialization Challenges and Future Outlook

Despite their superior energy advantages, mass production of lithium polymer batteries still faces significant hurdles. Currently, their charge-discharge cycles last only a few dozen cycles, far fewer than the hundreds or thousands of cycles typical of traditional lithium-ion batteries, limiting practical applications. However, with Samsung SDI and Columbia University’s breakthrough in controlling dendrites through polymer gel technology, the battery industry is gradually overcoming these technical barriers, promising a future where lithium polymer batteries deliver higher performance, safety, and durability.

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