The Crbr3 Monolayer: Two Dimension Sodium Ion Battery Anode Material to Characterize State-of-Charge by Magnetism

Ion batteries always use the charge properties of electron to estimate the state-of-charge. In this work, we predict that CrBr3 monolayers can be used as anode materials for sodium ion batteries to characterize state-of-charge of corresponding ion batteries by magnetism. According to the first-principles calculations based on density functional theory, the Na storage capacity of CrBr3 monolayer can reach 872 mAh/g with the ultra-low open circuit voltage (~0.02 V). Na ions have good diffusion properties in the CrBr3 monolayer, and the corresponding diffusion barrier is about to be 0.22 eV. There is a magnetic configuration transition in CrBr3 monolayer during charge/discharge, which originates from the occupation change of Cr-d orbitals. Our results shed a light to subsequently design and search anode material, suggest that the magnetic properties of electrode materials could provide a new path to monitor the state-of charge of ion battery.

Keywords: Sodium ion battery, anode material, CrBr3 monolayer, ferromagnetism, state-of-charge

Suggested Citation: Suggested Citation

Zhao, Xinxin and Ma, Pengju and Shu, Jiaohong and Cao, Yunjiu and Wang, Lili and Chen, Guanglong and Wu, Jianbao and Mi, Yiming, The Crbr3 Monolayer: Two Dimension Sodium Ion Battery Anode Material to Characterize State-of-Charge by Magnetism. Available at SSRN: https://ssrn.com/abstract=4296100 or http://dx.doi.org/10.2139/ssrn.4296100