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Effect of Coordinatively Unsaturated Sites in MOF‐Derived Highly Porous CuO for Catalyst‐Free ppb‐Level Gas Sensors

Kyusung Kim, Pil Gyu Choi, Toshio Itoh, Yoshitake Masuda

2021Advanced Materials Interfaces30 citationsDOI

Abstract

Abstract Herein, the authors successfully synthesize diamond‐ and square‐type Cu‐metal–organic frameworks (MOFs) and then convert them to highly porous CuO nanostructures with maintaining their morphology. Both the CuO‐diamond (CuO‐D) and CuO‐square (CuO‐S) gas sensors can detect a tiny concentration of acetone gas up to 50 ppb. However, the gas sensitivity depends on the morphology and the CuO‐D exhibits a higher gas response ( R g / R a : 3.3) for 1 ppm of acetone as compared with CuO‐S sensors ( R g / R a : 2.5). The mainly exposed crystal facet on the surface significantly affects the sensor performance. Especially, coordinatively unsaturated metal sites in an exposed facet can allow enhancing the sensitivity. The (111) facet is the main exposed facet of CuO‐D and it includes Cu 3‐fold which is a coordinatively unsaturated metal site. These relatively unstable Cu 3‐fold sites are favorable to react with other molecules to stabilize themselves as compared with coordinatively saturated Cu 4‐fold . Thus, CuO‐D demonstrates higher sensitivity as compared to CuO‐S, which is the main reaction surface as (020) facet composed only of Cu 4‐fold .

Topics & Concepts

Facet (psychology)Materials scienceAcetonePorosityDiamondCatalysisMetalChemical engineeringMetal-organic frameworkInorganic chemistryNanotechnologyPhysical chemistryOrganic chemistryChemistryComposite materialAdsorptionPersonalityMetallurgyEngineeringSocial psychologyPsychologyBig Five personality traitsGas Sensing Nanomaterials and SensorsMetal-Organic Frameworks: Synthesis and ApplicationsZnO doping and properties
Effect of Coordinatively Unsaturated Sites in MOF‐Derived Highly Porous CuO for Catalyst‐Free ppb‐Level Gas Sensors | Litcius