High-Performance Co3O4 Nanoparticle-Based Gas Sensor for Leakage Detection of Eco-Friendly Insulating Gas C4F7N

IF 9.1 1区化学 Q1 CHEMISTRY, ANALYTICAL ACS Sensors Pub Date : 2025-03-25 DOI:10.1021/acssensors.4c03741

Song Xiao, Yuhang Xue, Zhanyuan Li, Chengying Wu, Yifan Zhang, Peng Wu, Ju Tang, Xiaoxing Zhang, Hongye Yuan, Yi Li

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Abstract

Perfluoroisobutyronitrile (C₄F₇N), an eco-friendly insulating gas, has been extensively utilized in diverse gas-insulated equipment (GIE) to replace the most potent greenhouse gas SF₆. Nonetheless, given the low toxicity of C₄F₇N, the potential leakage risk at a high-pressure operational environment cannot be overlooked, making the development of highly sensitive gas sensors for leak detection essential. Herein, Co₃O₄ was selected as a specific gas sensing material for C₄F₇N detection based on the density functional theory screening. The Co₃O₄-based gas sensor was prepared, and its response performance was systematically evaluated. The interaction mechanism between Co₃O₄ and C₄F₇N was also examined by the oxygen vacancy theory. The sensor demonstrates a low detection limit of 0.15 ppm at its optimal operating temperature of 300 °C, exhibiting exceptional selectivity and repeatability, with a stability response time of 55.5 s and recovery time of 1478 s. The sensor’s application potential under actual working settings was validated using a simulated leakage test. Relevant results provide guidance for the leakage monitoring of the C₄F₇N-based GIE.

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基于高性能Co3O4纳米颗粒的气体传感器用于环保绝缘气体C4F7N的泄漏检测

全氟异丁腈（C4F7N）是一种环保绝缘气体，已被广泛应用于各种气体绝缘设备（GIE）中，以替代最有害的温室气体 SF6。尽管如此，鉴于 C4F7N 的低毒性，其在高压运行环境下的潜在泄漏风险不容忽视，因此开发用于泄漏检测的高灵敏度气体传感器至关重要。本文基于密度泛函理论筛选出 Co3O4 作为检测 C4F7N 的特定气体传感材料。制备了基于 Co3O4 的气体传感器，并对其响应性能进行了系统评估。还通过氧空位理论研究了 Co3O4 与 C4F7N 之间的相互作用机理。该传感器在最佳工作温度 300 ℃ 下的检测限低至 0.15 ppm，具有优异的选择性和可重复性，稳定响应时间为 55.5 秒，恢复时间为 1478 秒。相关结果为基于 C4F7N 的 GIE 的泄漏监测提供了指导。

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来源期刊

ACS Sensors Chemical Engineering-Bioengineering

CiteScore

14.50

自引率

3.40%

发文量

372

期刊介绍： ACS Sensors is a peer-reviewed research journal that focuses on the dissemination of new and original knowledge in the field of sensor science, particularly those that selectively sense chemical or biological species or processes. The journal covers a broad range of topics, including but not limited to biosensors, chemical sensors, gas sensors, intracellular sensors, single molecule sensors, cell chips, and microfluidic devices. It aims to publish articles that address conceptual advances in sensing technology applicable to various types of analytes or application papers that report on the use of existing sensing concepts in new ways or for new analytes.