Litcius/Paper detail

Shape-Conformable, Eco-Friendly Cellulose Aerogels as High-Performance Battery Separators

Leila Raafat, Bernd Wicklein, G. Majer, Timotheus Jahnke, Achim M. Diem, Joachim Bill, Žaklina Burghard

2020ACS Applied Energy Materials21 citationsDOI

Abstract

The ubiquity of portable electronics underlines the importance of high-performance flexible metal-ion batteries and the necessity of their development. Considering their ecological footprint, the application of eco-friendly recyclable battery components has become the greatest challenge and the focal point of research. However, less attention has been devoted to the development of shape-conformable separators with minimal impact on the battery performance and the environment. It is therefore imperative to develop a rational design of next-generation eco-friendly separators with an optimized structure–performance relationship. In this work, a highly flexible and eco-friendly cellulose-nanofiber aerogel (CNF-AG) separator is developed and its dynamic behavior in battery cells is assessed. The tailored channel-like structure with a meso- and macroporosity of 99.5% and good mechanical stability results in superior performance to the commercial glass fiber (GF) membranes and other cellulose-based separators. Its structure with a well-connected pore network and affinity to carbonate-based and ionic liquid electrolytes realize an electrolyte uptake of 12 000%. Furthermore, an effective diffusion coefficient of 1.70 × 10–10 m2 s–1, only 16% lower than that of the bulk electrolyte, yielded an ionic conductivity of 2.64 mS cm–1. Assessing the CNF-AG in lithium-ion batteries (LIBs) revealed a stable interfacial resistance over time, reaching 380 Ω, one-third of that obtained for GF. Accordingly, superior electrochemical performance is observed, achieving good cycling stability up to 200 cycles. Moreover, its applicability in aluminum-ion batteries is demonstrated. The outstanding structure–performance relationships of the developed CNF-AG indicate its superiority as a shape-conformable biodegradable separator suitable for metal-ion batteries.

Topics & Concepts

Separator (oil production)Environmentally friendlyElectrolyteConformable matrixMaterials scienceIonic liquidBattery (electricity)CelluloseNanofiberChemical engineeringElectrochemistryIonic conductivityNanotechnologyComposite materialElectrodeChemistryOrganic chemistryEngineeringEcologyThermodynamicsPhysical chemistryQuantum mechanicsPower (physics)PhysicsBiologyCatalysisSupercapacitor Materials and FabricationAdvancements in Battery MaterialsAerogels and thermal insulation