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TOPICS: Battery Technology, Lithium-Ion, UCLA
The world of battery technology is on the brink of a revolutionary transformation with a groundbreaking discovery by UCLA researchers. The veil has been lifted on the true shape of lithium, offering the potential to enhance the safety and efficiency of lithium-metal batteries. By preventing corrosion during the deposition of lithium, scientists have unveiled a remarkable 12-sided form that lithium atoms take, a discovery that could redefine the landscape of battery technology and pave the way for safer and more powerful rechargeable batteries.
Lithium-ion batteries are the backbone of modern technology, energizing smartphones, electric vehicles, and renewable energy storage systems. However, their evolution is poised to take a dramatic leap with the resurgence of lithium-metal batteries. While these batteries can store nearly twice the energy of their lithium-ion counterparts, their adoption has been limited due to safety concerns involving fire and explosions.
In a game-changing study conducted by the California NanoSystems Institute at UCLA, a transformative breakthrough has been unveiled. Published in the prestigious journal Nature, this research sheds light on a pivotal aspect of lithium-metal batteries that could elevate their safety and performance.
Ordinarily, lithium metal reacts with chemicals during deposition, leading to the rapid formation of corrosion. This corrosion has long hindered the formation of well-defined shapes in lithium. However, the UCLA team devised an ingenious technique to prevent this corrosion, which led to an astonishing revelation: in the absence of corrosion, lithium atoms assemble into a singular polyhedron — a rhombic dodecahedron with 12 sides, akin to the dice used in role-playing games.
Yuzhang Li, the corresponding author of the study and an assistant professor of chemical and biomolecular engineering at the UCLA Samueli School of Engineering, highlighted the significance of this discovery. He noted that the common descriptions of lithium’s structure as “chunky” or “column-like” have now been challenged. This revelation provides a clearer understanding of lithium’s behavior, allowing researchers to redefine their comprehension of lithium-metal batteries.
At the microscopic scale, lithium-ion batteries encapsulate positively charged lithium atoms within a carbon framework that coats an electrode. In contrast, lithium-metal batteries cover the electrode with metallic lithium, resulting in a tenfold increase in energy storage capacity within the same volume. However, this remarkable enhancement comes at the cost of heightened risk due to potential short circuits.
Depositing lithium onto surfaces entails an intricate process that involves electricity and electrolyte solutions. Traditional methods often result in the formation of spiky structures, which can lead to short circuits and explosions within the battery.
The unprecedented unveiling of the true shape of lithium — free from corrosion — holds profound implications. By avoiding the chaotic formations caused by corrosion, the risk of explosions in lithium-metal batteries can be significantly mitigated. Furthermore, this discovery opens doors to high-performance energy technology.
Li’s insights also extend to the realm of materials science, where shapes of metals like gold, platinum, and silver have been finely tailored. With the newfound understanding of lithium’s shape, the challenge lies in harnessing this knowledge to optimize battery safety and performance.
Contrary to previous assumptions, the choice of electrolytes no longer solely dictates the shape of lithium deposition. UCLA researchers turned the tide by developing a technique that accelerates the lithium deposition process, outpacing the corrosion reaction that typically occurs. This innovative approach provides unprecedented insights into lithium’s inherent behavior.
The research team crafted a novel method to expedite lithium deposition while mitigating corrosion. This involved passing current through a smaller electrode, akin to increasing water pressure by partially blocking a garden hose.
Comparative experiments involving four different electrolytes showcased the transformative power of the corrosion-free approach. Without corrosion hindrance, lithium formed intricately structured dodecahedrons — each no larger than 2 millionths of a meter. This revelation was made possible through advanced imaging techniques, demonstrating the power of cryo-electron microscopy.
The unique shape of lithium was unraveled using cryo-electron microscopy, a groundbreaking imaging technique that has redefined the boundaries of scientific observation. By beaming electrons through frozen samples, cryo-EM captures atomic-level details while safeguarding the integrity of samples.
This monumental discovery by UCLA researchers illuminates the path towards safer, more efficient, and high-performance lithium-metal batteries. The journey to understanding lithium’s behavior at its core paves the way for unparalleled advancements in battery science. As technology and imagination converge, a future of potent energy storage solutions beckons.
Reference: “Ultrafast deposition of faceted lithium polyhedra by outpacing SEI formation” by Xintong Yuan, Bo Liu, Matthew Mecklenburg and Yuzhang Li, 2 August 2023, Nature.
DOI: 10.1038/s41586-023-06235-w
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