Metal-Organic Frameworks/Conducting Polymer Hydrogel Integrated Three-Dimensional Free-Standing Monoliths as Ultrahigh Loading Li-S Battery Electrodes

Borui Liu, Renheng Bo, Mahdiar Taheri, Iolanda Di Bernardo, Nunzio Motta, Hongjun Chen, Takuya Tsuzuki, Guihua Yu, Antonio Tricoli

Research output: Contribution to journalArticleResearchpeer-review

46 Citations (Scopus)


The lithium-sulfur (Li-S) system is a promising material for the next-generation of high energy density batteries with application extending from electrical vehicles to portable devices and aeronautics. Despite progress, the energy density of current Li-S technologies is still below that of conventional intercalation-type cathode materials due to limited stability and utilization efficiency at high sulfur loading. Here, we present a conducting polymer hydrogel integrated highly performing free-standing three-dimensional (3D) monolithic electrode architecture for Li-S batteries with superior electrochemical stability and energy density. The electrode layout consists of a highly conductive three-dimensional network of N,P codoped carbon with well-dispersed metal-organic framework nanodomains of ZIF-67 and HKUST-1. The hierarchical monolithic 3D carbon networks provide an excellent environment for charge and electrolyte transport as well as mechanical and chemical stability. The electrically integrated MOF nanodomains significantly enhance the sulfur loading and retention capabilities by inhibiting the release of lithium polysulfide specificities as well as improving the charge transfer efficiency at the electrolyte interface. Our optimal 3D carbon-HKUST-1 electrode architecture achieves a very high areal capacity of >16 mAh cm-2 and volumetric capacity (CV) of 1230.8 mAh cm-3 with capacity retention of 82% at 0.2C for over 300 cycles, providing an attractive candidate material for future high-energy density Li-S batteries.

Original languageEnglish
Pages (from-to)4391-4399
Number of pages9
JournalNano Letters
Issue number7
Publication statusPublished - 1 Jan 2019
Externally publishedYes


  • conducting polymer hydrogel
  • high loading
  • Li-S batteries
  • metal-organic frameworks
  • three-dimensional electrodes

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