Litcius/Paper detail

Humidity-Mediated Dual Ionic–Electronic Conductivity Enables High Sensitivity in MOF Chemiresistors

Young‐Moo Jo, Dong‐Ha Kim, Jiande Wang, Julius J. Oppenheim, Mircea Dincă

2024Journal of the American Chemical Society75 citationsDOI

Abstract

In the presence of water, the electrically conductive metal–organic framework (MOF) Cu 3 HHTT 2 (H 6 HHTT = 2,3,7,8,12,13-hexahydroxy-4b1,5,10,15-tetraazanaphtho[1,2,3-gh]tetraphene) provides a conduit for proton transport, thereby becoming a dual ionic–electronic conductor. Owing to its dual conducting nature and its high density of imine and open metal sites, the MOF operates as a particularly sensitive chemiresistor, whose sensing mechanism changes with relative humidity. Thus, the interaction of NH 3 gas with the MOF under low humidity promotes proton transport, which translates to high sensitivity for ammonia detection. Conversely, NO 2 gas hinders proton conductivity, even under high relative humidity conditions, leading to large resistance variations in the humid regime. This dual ionic–electronic conduction-based gas sensor provides superior sensitivity compared to other conventional chemiresistors under similar conditions and highlights its potential as a platform for room-temperature gas sensors.

Topics & Concepts

ChemistrySensitivity (control systems)Dual (grammatical number)ConductivityIonic bondingNanotechnologyOrganic chemistryIonPhysical chemistryEngineeringElectronic engineeringLiteratureArtMaterials scienceGas Sensing Nanomaterials and SensorsTransition Metal Oxide NanomaterialsZnO doping and properties