Tuning Transition Metal Oxide–Sulfur Interactions for Long Life Lithium Sulfur Batteries: The “Goldilocks” Principle

Liang, Xiao; Kwok, Chun Yuen; Lodi‐Marzano, Fernanda; Pang, Quanquan; Cuisinier, Marine; Huang, He; Hart, Connor J.; Houtarde, Diane; Kaup, Kavish; Sommer, Heino; Brezesinski, Torsten; Janek, Jürgen; Nazar, Linda F.

doi:10.1002/aenm.201501636

articleAdvanced Energy MaterialsDec 18, 2015Closed access

Tuning Transition Metal Oxide–Sulfur Interactions for Long Life Lithium Sulfur Batteries: The “Goldilocks” Principle

XLXiao Liang CYChun Yuen Kwok FLFernanda Lodi‐Marzano QPQuanquan Pang MCMarine Cuisinier

University of Waterloo · Karlsruhe Institute of Technology · +1 more institution

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Abstract

The lithium‐sulfur battery is a compelling energy storage system because its high theoretical energy density exceeds Li‐ion batteries at much lower cost, but applications are thwarted by capacity decay caused by the polysulfide shuttle. Here, proof of concept and the critical metrics of a strategy to entrap polysulfides within the sulfur cathode by their reaction to form a surface‐bound active redox mediator are demonstrated. It is shown through a combination of surface spectroscopy and cyclic voltammetry studies that only materials with redox potentials in a targeted window react with polysulfides to form active surface‐bound polythionate species. These species are directly correlated to superior Li‐S cell…

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Topics & keywords

Topics

Keywords

Polysulfide
Redox
Materials science
Electrochemistry
Sulfur
Cathode
Cyclic voltammetry
Oxide

UN Sustainable Development Goals

Affordable and clean energy

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