Sweden: Battery Research How to Prevent Short Circuits in Lithium Metal Batteries
There are high hopes for the next generation of high energy-density lithium metal batteries, but before they can be used in our vehicles, there are crucial problems to solve. An international research team led by Chalmers University of Technology, Sweden, has now developed concrete guidelines for how the batteries should be charged and operated, maximising efficiency while minimising the risk of short circuits.
Gothenburg/Sweden — Lithium metal batteries are one of several promising concepts that could eventually replace the lithium-ion batteries which are currently widely used — particularly in various types of electric vehicles. The big advantage of this new battery type is that the energy density can be significantly higher. This is because one electrode of a battery cell — the anode — consists of a thin foil of lithium metal, instead of graphite, as is the case in lithium-ion batteries. Without graphite, the proportion of active material in the battery cell is much higher, increasing energy density and reducing weight. Using lithium metal as the anode also makes it possible to use high-capacity materials at the other electrode — the cathode. This can result in cells with three to five times the current level of energy-density.
The big problem, however, is safety. In two recently published scientific articles in the prestigious journals Advanced Energy Materials and Advanced Science, researchers from Chalmers University of Technology, together with colleagues in Russia, China and Korea, now present a method for using the lithium metal in an optimal and safe way. It results from designing the battery in such a way that, during the charging process, the metal does not develop the sharp, needle-like structures known as dendrites, which can cause short circuits, and, in the worst cases, lead to the battery catching fire. Safety during charging and discharging is the key factor.
According to Shizhao Xiong, researcher at the Department of Physics at Chalmers, short circuiting in lithium metal batteries usually occurs due to the metal depositing unevenly during the charging cycle and the formation of dendrites on the anode. These protruding needles cause the anode and the cathode to come into direct contact with one another, so preventing their formation is therefore crucial. Our guidance can now contribute to this.
There are a number of different factors that control how the lithium is distributed on the anode. In the electrochemical process that occurs during charging, the structure of the lithium metal is mainly affected by the current density, temperature and concentration of ions in the electrolyte.
The researchers used simulations and experiments to determine how the charge can be optimised based on these parameters. The purpose is to create a dense, ideal structure on the lithium metal anode. The new knowledge about how to control the process under different conditions can contribute to safer and more efficient lithium metal batteries.
References: The article Insight into the Critical Role of Exchange Current Density on Electrodeposition Behavior of Lithium Metal has been published in Advanced Science and is written by Yangyang Liu, Xieyu Xu, Matthew Sadd, Olesya O. Kapitanova, Victor A. Krivchenko, Jun Ban, Jialin Wang, Xingxing Jiao, Zhongxiao Song, Jiangxuan Song, Shizhao Xiong and Aleksandar Matic. The researchers are active at Lomonosov Moscow State University and the Moscow Institute of Physics and Technology in Russia, Xi’an Jiaotong University in China and at Chalmers University of Technology;
The article Role of Li ‐ Ion Depletion on Electrode Surface: Underlying Mechanism for Electrodeposition Behavior of Lithium Metal Anode has been published in Advanced Energy Materials and is written by Xieyu Xu, Yangyang Liu, Jang ‐ Yeon Hwang, Olesya O. Kapitanova, Zhongxiao Song, Yang ‐ Kook Sun, Aleksandar Matic and Shizhao Xiong. The researchers are active at Lomonosov Moscow State University, Russia, Xi’an Jiaotong University in China, Chonnam National University and Hanyang University in Korea, as well as at Chalmers University of Technology.