LiMg0.1Co0.9BO3 as a positive electrode material for Li-ion batteries

Ceren Zor; Mehmet Somer; Semih Afyon

doi:10.1039/c8ra02745e

LiMg_0.1Co_0.9BO₃ as a positive electrode material for Li-ion batteries

RSC Adv. 2018 Apr 26;8(28):15773-15779. doi: 10.1039/c8ra02745e. eCollection 2018 Apr 23.

Authors

Ceren Zor¹, Mehmet Somer¹, Semih Afyon²

Affiliations

¹ Koc University, Department of Chemistry 34450 Sariyer Istanbul Turkey msomer@ku.edu.tr cezor@ku.edu.tr.
² ETH Zurich, Department of Materials CH-8093 Zurich Switzerland semih.afyon@alumni.ethz.ch.

Abstract

LiCoBO₃ could be a promising cathode material given the electronic and ionic conductivity problems are addressed. Here, Mg substitution in LiCoBO₃ is employed to stabilise the structure and improve the electrochemical performance. LiMg_0.1Co_0.9BO₃ is synthesised for the first time via sol-gel method and Mg substitution in the structure is verified by X-ray powder diffraction and energy dispersive X-ray analyses. The electrochemical properties are investigated by galvanostatic cycling and cyclic voltammetry tests. The composite electrode with conductive carbon (reduced graphite oxide and carbon black) delivers a first discharge capacity of 32 mA h g^-1 within a 4.7-1.7 voltage window at a rate of 10 mA g^-1. The cycling is relatively stable compared to the unsubstituted LiCoBO₃. Mg substitution may enhance the electrochemical performance of borate-based electrode materials when combined with suitable electrode design techniques.