In-situ growth of hybrid NaTi8O13/NaTiO2 nanoribbons on layered MXene Ti3C2 as a competitive anode for high-performance sodium-ion batteries

Publication date: Available online 12 February 2020Source: Chinese Chemical LettersAuthor(s): Xuan Sun, Ke Tan, Yang Liu, Jinyang Zhang, Linrui Hou, Changzhou YuanAbstractIn the work, we successfully explore a two-step hydrothermal method for scalable synthesis of the hybrid sodium titanate (NaTi8O13/NaTiO2) nanoribbons well in-situ formed on the multi-layered MXene Ti3C2 (designed as NTO/Ti3C2). Benefiting from the inherent structural and componential superiorities, the resulted NTO/Ti3C2 composite exhibits long-duration cycling stability and superior rate behaviors when evaluated as a hybrid anode for advanced SIBs, which delivers a reversible and stable capacity of ∼82 mA h/g even after 1900 cycles at 2000 mA/g for SIBsGraphical AbstractTwo dimensional sodium titanates/Ti3C2 hybrids were smartly synthesized and exhibited superior sodium storage properties towards sodium ion batteries as competitive anodes.
Source: Chinese Chemical Letters - Category: Chemistry Source Type: research