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Abstract
Here, we report a Pd/PdOx sensing material that achieves 1-s detection of 4% H2 gas (i.e., the lower explosive limit concentration for H2) at room temperature in air. The Pd/PdOx material is a network of interconnected nanoscopic domains of Pd, PdO, and PdO2. Upon exposure to 4% H2, PdO and PdO2 in the Pd/PdOx can be immediately reduced to metallic Pd, generating over a >90% drop in electrical resistance. The mechanistic study reveals that the Pd/PdO2 interface in Pd/PdOx is responsible for the ultrafast PdOx reduction. Metallic Pd at the Pd/PdO2 interface enables fast H2 dissociation to adsorbed H atoms, which is otherwise the rate-determining step on PdO2, significantly lowering the PdO2 reduction barrier. In addition, the interconnectivity of Pd, PdO, and PdO2 in Pd/PdOx facilitates the reduction of PdO. The 1-s response time of Pd/PdOx under ambient conditions makes it an excellent alarm for the timely detection of hydrogen gas leaks.
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