| Literature DB >> 31318528 |
Maider Zarrabeitia1,2,3, Luciana Gomes Chagas2,3, Matthias Kuenzel2,3, Elena Gonzalo1, Teófilo Rojo1,4, Stefano Passerini2,3, Miguel Ángel Muñoz-Márquez1.
Abstract
The electrochemical properties of P2-Na2/3Mn0.8Fe0.1Ti0.1O2 layered oxide, which is a promising cathode material for rechargeable Na-ion batteries (NIBs), are evaluated with an optimized in-house ionic liquid (IL)-based electrolyte, and its performance is compared with that using carbonate-based electrolyte. The IL-based system reveals better electrochemical performance at room temperature than the carbonate electrolyte-based one at 0.1C and 1C, especially in terms of cycling stability, with a 97% capacity retention after 100 deep cycles (0.1C). The electrode/electrolyte interface is thoroughly studied in both systems by means of X-ray photoelectron spectroscopy and scanning electron microscopy so as proof that the formed interface is crucial to optimizing the electrochemical performance of NIBs. The carbonate-based system shows a thin, inhomogeneous, and unstable interface layer, while the IL-based one exhibits an even thinner but homogeneous and more stable interface, which may result in safer and longer-lasting NIBs.Entities:
Keywords: Na-ion batteries; Na-layered oxide; carbonate-based electrolyte; ionic liquid electrolyte; solid permeable interface
Year: 2019 PMID: 31318528 DOI: 10.1021/acsami.9b07963
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229