Greener alternative to lithium-ion batteries
The runaway popularity of personal electronic devices has led to a huge global demand for compact yet powerful rechargeable batteries. Since hitting the market in the 1990s, lithium-ion technology has taken the lead in meeting this need.
But concerns over the relative scarcity of lithium and the toxicity of other common lithium-ion battery ingredients such as cobalt are driving the search for an alternative. Sodium, around 1000 times more abundant than lithium, could be the answer.
91社区 chemistry professor Eric McCalla is aiming to push the sodium-ion battery from concept to a commercial reality that will perform comparably to lithium-ion batteries but be less expensive to make and have a smaller environmental footprint.
鈥淭rying to displace lithium-ion you have to be noticeably cheaper and your processing has to be almost identical,鈥 McCalla says. 鈥淚f you are trying to convince people to change over from making lithium batteries to sodium, they will have to reinvent their whole plant. The performance just isn鈥檛 quite there yet to justify that kind of switchover.鈥
McCalla believes the secret to outdoing lithium lies in finding just the right metallurgic mix to create a high-performance sodium-based electrode. His team aims to accelerate that search by using combinatorial synthesis, a technique that allows 64 distinct samples to be cooked up in the furnace in one go. By working through three such batches in a week, McCalla and his team can investigate 192 compositions in the same time it would take to work through just 10 samples using conventional methods.
This high throughput not only allows the researchers to try out more metallic combinations in less time, it also gives them greater freedom to explore combinations of three or four different metals rather than just varying the ratio of two metals in a linear fashion.
鈥淔rom a science point of view, we learn a lot about the trends in the phase diagram 鈥 what really matters. I have found in the past that there are regions of the phase diagram that exist that we didn鈥檛 know about because they are compensated by things that we weren鈥檛 expecting,鈥 McCalla says.
鈥淲e can put an empty site in a lot of these materials and that actually means we can make compositions where we didn鈥檛 think we could 鈥 so there are interesting materials out there that we were blind to that this method should be able to weed out.鈥
McCalla鈥檚 success in obtaining an MSSI Innovation Fund grant will help develop a proof of concept as a next step towards putting his high-throughput screening technique to work on the search for a cleaner, greener battery to power the next generation of portable electronics.
About the MSSI Innovation Fund
The MSSI Innovation Fund provides funding to move sustainability-focused projects to the next stage of development, from activities required for commercialization to policy development. The Spring 2018 MSSI Innovation Fund competition awarded a total of $354,000 to fund five projects from three departments across two faculties.
鈥 Learn more about the 91社区 Sustainability Systems Initiative (MSSI)