Litcius/Paper detail

Superprotonic Conductivity in Metal–Organic Frameworks by Charged-Layer-Mediated Proton Conduction

Sai-Li Zheng, Can-Min Wu, Lai‐Hon Chung, Hua‐Qun Zhou, Jieying Hu, Zhiqing Liu, Ying Wu, Lin Yu, Jun He

2023ACS Energy Letters65 citationsDOI

Abstract

Through a stepwise functionalization strategy, LiCl@UiO-66-F 2 (SO 3 H) 2 manifests a superprotonic conductivity of 2.86 S cm –1 (at 90% RH and 90 °C), a record breaker so far. Supported by joint experimental–theoretical studies, the ultrahigh conductivity originates from conduction by protons rather than ions and is rationalized to result from the enhanced acidity of −SO 3 H by introduction of electronegative −F followed by the formation of double charged layers composed of Li + and −SO 3 – layers after encapsulation of LiCl. Importantly, the effect of charged layers has been verified, and charged-layer-mediated proton conduction is unprecedentedly proposed to fill in the missing pieces in existing proton conduction mechanisms, giving insight into the rational design of superprotonic conducting framework materials potentially applied as proton exchange membranes in fuel cells.

Topics & Concepts

ConductivityThermal conductionProtonChemistryIonMetalMembraneLayer (electronics)Chemical physicsChemical engineeringInorganic chemistryMaterials sciencePhysical chemistryComposite materialNuclear physicsPhysicsOrganic chemistryEngineeringBiochemistryFuel Cells and Related MaterialsAdvanced battery technologies researchMetal-Organic Frameworks: Synthesis and Applications