Science news and articles on health, environment, global warming, stem cells, bird flu, autism, nanotechnology, dinosaurs, evolution -- the latest discoveries in astronomy, anthropology, biology, chemistry, climate & bioengineering, computers, engineering ; medicine, math, physics, psychology, technology, and more from the world's leading research centers universities.

Borophene: A prospective extraordinary sodium anode material for sodium-based batteries


Sodium-based batteries have drawn considerable attention as a prospective alternative to lithium-based batteries due to the abundance and low price of sodium element. However, finding a suitable anode material has been a long-standing critical task before the commercialization of sodium-based batteries. As the size of sodium atom is much larger than that of lithium atom, many anode materials widely used in lithium-based batteries show poor performance in sodium-based batteries, most of which suffering from low intercalation utility, slow kinetics and sever volume expansion.

Recently, a research team led by Prof. Tianshou Zhao at the Hong Kong University of Science and Technology comprehensively investigated the feasibility of employing borophene, a newly synthesized 2D sheet of boron, as an anode material for sodium-based batteries via ab initio calculations. The calculation results show that during charge, the maximum Na/B ratio can reach 0.5 (Na0.5B), corresponding to a capacity of as high as 1218 mAh·g-1. The unique buckling structure of borophene leads to an anisotropic diffusion behavior. Along the valley direction of borophene, the diffusion energy barrier for sodium is as low as 0.0019 eV, corresponding to an ultrahigh sodium diffusivity, which is estimated to be more than a thousand times higher than that of conventional anode materials and one to seven magnitudes higher than other previously reported 2D materials. This ultrahigh diffusivity is expected to revolutionize the rate capability of sodium-based batteries. During the charge and discharge process, the metallic feature and structural integrity of borophene is predicted to be well preserved, which ensures good electronic conductivity and stable cyclability. The calculated average open circuit voltages (OCV) is 0.53 V, which is an appropriate value for sodium-based batteries to maintain a high energy density while effectively suppressing the dendrite formation. Till now, compared with other reported sodium anode materials, borophene holds the highest sodium diffusivity.


See the article:

Le Shi, Tianshou Zhao, Ao Xu and Jianbo Xu. Ab initio prediction of borophene as an extraordinary anode material exhibiting ultrafast directional sodium diffusion for sodium-based batteries. Science Bulletin, 2016, 61(14)1138-1144

Science China Press

Media Contact

Tianshou Zhao
[email protected]

Leave A Reply

Your email address will not be published.