Chinese researchers have recently developed a new type of lithium metal battery with 3D printing technology, significantly improving the batterys lifespan and energy density.
The researchers from Dalian Institute of Chemical Physics under the Chinese Academy of Sciences use 3D printing technology to make titanium carbide-based scaffolds for lithium metal to deposit as the cathode, which achieves an outstanding areal capacity of 30 milliampere hour per square centimeter and a cycle lifespan of over 4,800 hours without producing lithium dendrite.
Lithium metal battery is expected to be the next-generation high-energy battery for its potential high energy density. But the bottlenecks, such as lithium dendrite growth and low Coulombic efficiency, resulting in poor cyclability and low energy density, have limited its applications.
The study was published in the journal Energy Storage Materials.
The 3D printed anode was made by porous lithium iron phosphate (LiFePO4) lattices with mass loading reaching 171 mg per square centimeter, effectively improving the electrochemical performance of the battery.
This technical route offers a viable strategy for developing batteries with long lifespans and high energy density, according to the study.
Photo: downloaded from the research published on ScienceDirect