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Open-Framework Chalcogenide (H<sub>3</sub>O)KCu<sub>6</sub>Ge<sub>2</sub>S<sub>8</sub>·<i>n</i>H<sub>2</sub>O Exhibiting High Mixed Proton–Electron Conduction

Zhang Guo-qin, Zhi-Yuan Yao, Jin Zhang, Hong‐Bin Luo, Ya-Ru Kong, Yang Zou, Zhengfang Tian, Xiao‐Ming Ren

2021The Journal of Physical Chemistry C13 citationsDOI

Abstract

Mixed ion–electron conductors have a wide range of important applications in devices relying on mixed ion–electron transport, mainly including conducting polymer composites and ceramics. Herein, we present a new type of mixed ion–electron conductor, an open-framework chalcogenide, (H3O)KCu6Ge2S8·nH2O (1), with a three-dimensional (3D) framework and two types of one-dimensional (1D) channels, occupied by hydronium ions and potassium ions, respectively. Thermogravimetric (TG) and powder X-ray diffraction (PXRD) measurements suggest that the hydrated proton species in the channels of 1 are in the form of H2n+1On+ (n > 1). The impedance measurements reveal that 1 is an intrinsic mixed proton–electron conductor. In the N2 atmosphere, the conductivity (σ) of 1 increases with release of water molecules and increasing temperature with σ = 0.71 S cm–1 at 123 K and 1.61 S cm–1 at 473 K in the first cooling run, and in this case, the electron conduction is much higher than the ion conduction. At 98% relative humidity (RH), however, the situation is opposite, and the proton conductivity of 1 is higher than its electron conduction with an ion conductivity (σi)/electron conductivity (σe), σi/σe, of 1.99 × 10–3/6.31 × 10–4 S cm–1 at 298 K and 2.49 × 10–2/2.52 × 10–3 S cm–1 at 343 K. To the best of our knowledge, 1 is the first example of an open-framework material with mixed proton–electron conduction, and this study demonstrates that open-framework materials, including chalcogenides, MOFs, and COFs, are good candidates for mixed proton–electron conductors.

Topics & Concepts

HydroniumConductivityIonProtonAnalytical Chemistry (journal)Powder diffractionThermal conductionChemistryThermogravimetric analysisMaterials scienceCrystallographyPhysical chemistryPhysicsComposite materialQuantum mechanicsOrganic chemistryChromatographyAdvancements in Battery MaterialsAdvanced Battery Materials and TechnologiesMetal-Organic Frameworks: Synthesis and Applications