January 12, 2015
蓝莓视频 breakthrough in electric car battery research
Cheaper lithium-sulphur battery may one day take electric cars three times further, says 蓝莓视频 researcher
An ultra-thin nanomaterial is at the heart of a major breakthrough by 蓝莓视频 scientists who are in a global race to invent a cheaper, lighter and more powerful rechargeable battery for electric vehicles.
Chemistry Professor and her research team have discovered that a nanosheet of manganese dioxide can be used in a lithium-sulphur (Li-S) battery to dramatically boost its performance. The low-cost Li-S battery can theoretically power an electric car three times further than current lithium-ion batteries for the same weight.
Breakthrough published in Nature Communications
鈥淭his is a major step forward and brings the Li-S battery one step closer to reality,鈥 said Nazar, who also holds the Canada Research Chair in Solid State Energy Materials and is a 2014 Thomson Reuters鈥 Highly Cited Researcher. Their appeared recently in Nature Communications.
The surface of the manganese dioxide nanosheet essentially transforms the sulphur cathode of a Li-S battery into a high-performance cathode that can recharge more than 2,000 times. 听Cathodes and anodes are the two electrodes on a battery, separated by an electrolyte solution.
Sulphur, which is an extremely abundant, relatively light and very cheap battery material, historically hasn鈥檛 worked as a cathode material because it dissolves into the electrolyte solution, as the battery discharges.
Metal oxides key to rechargeable battery
Earlier published research by Nazar found that metallic titanium oxide could work to stabilize the sulphur, but the research published this week shows that nanosheets of manganese dioxide work even better. The main goal of this paper is to explain the mechanism at work.
鈥淵ou have to focus on the a fundamental understanding of the phenomenon before you can develop new, advanced materials,鈥 said Nazar.
Link to golden age of German sulphur chemistry
The chemical reaction that stabilizes the sulphur is similar to a chemical process discovered in 1845 during the golden age of German sulphur chemistry. 鈥淰ery few researchers study or even teach sulphur chemistry anymore,鈥 said Nazar. 鈥淚t鈥檚 ironic we had to look so far back in the literature to understand something that may so radically change our future.鈥澨
Postdoctoral research associate Xiao Liang, the lead author, and graduate students Connor Hart and Quan Pang are currently investigating other oxides to find the best sulphur retaining material.
BASF International Scientific Network for Electrochemistry and Batteries funded the research. The paper鈥檚 co-authors include Arnd Garsuch and Thomas Weiss of BASF.
