Litcius/Paper detail

Reversible Iron Oxyfluoride (FeOF)‐Graphene Composites as Sustainable Cathodes for High Energy Density Lithium Batteries

Yadong Liu, Yikang Yu, Fan Yang, Guangqi Zhu, Yu Kang, Ronghui Kou, Cheng‐Jun Sun, Yuzi Liu, Jiayi Xu, Cong Liu, Chenzhao Li, Tianwei Liu, Yang Ren, Wenquan Lu, Rafael Ferreira, Paulo J. Ferreira, Zhengcheng Zhang, Jian Xie

2023Small14 citationsDOIOpen Access PDF

Abstract

Abstract Two large barriers are impeding the wide implementation of electric vehicles, namely driving‐range and cost, primarily due to the low specific energy and high cost of mono‐valence cathodes used in lithium‐ion batteries. Iron is the ideal element for cathode materials considering its abundance, low cost and toxicity. However, the poor reversibility of (de)lithiation and low electronic conductivity prevent iron‐based high specific energy multi‐valence conversion cathodes from practical applications. In this work, a sustainable FeOF nanocomposite is developed with extraordinary performance. The specific capacity and energy reach 621 mAh g −1 and 1124 Wh kg −1 with more than 100 cycles, which triples the specific capacity, and doubles the specific energy of current mono‐valence intercalation LiCoO 2 . This is the result of an effective approach, combing the nanostructured FeOF with graphene, realized by making the (de)lithiation reversible by immobilizing FeOF nanoparticles and the discharge products over the graphene surface and providing the interparticle electric conduction. Importantly, it demonstrates that introducing small amount of graphene can create new materials with desired properties, opening a new avenue for altering the (de)lithiation process. Such extraordinary performance represents a significant breakthrough in developing sustainable conversion materials, eventually overcoming the driving range and cost barriers.

Topics & Concepts

GrapheneMaterials scienceCathodeNanotechnologyNanocompositeNanoparticleEnergy storageIntercalation (chemistry)ChemistryInorganic chemistryPhysical chemistryPhysicsQuantum mechanicsPower (physics)Advancements in Battery MaterialsAdvanced Battery Materials and TechnologiesSupercapacitor Materials and Fabrication