Theoretical Investigation of Rhodium-Decorated Gallium Nitride Nanotubes for Sulfur Hexafluoride Decomposition Products Sensing and Scavenging Applications

IF 3.7 2区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY Langmuir Pub Date : 2024-11-01 DOI:10.1021/acs.langmuir.4c0346510.1021/acs.langmuir.4c03465
Qingfang Zhang*, Shoutao Fan, Jitao Zhang, Qianyu Chen, Yufeng Ding, Xiaowan Zheng, Aijuan Zhang, Lingzhi Cao*, Bochang Li and Genquan Han, 
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Abstract

Gas-insulated switchgear (GIS) plays an important role as a modern power distribution device in power plants and power stations, which is commonly filled with SF6 insulating gas. During the equipment operation, the inevitable partial discharge causes SF6 to be broken down into gas (SF4, SOF2, SO2, and H2S), which degrades the insulation performance of the GIS. This paper is devoted to the detection of partial discharge and the removal of SF4 and SOF2, which are not conducive to insulation, by exploring new gas-sensing materials for characteristic gas detection. Based on first-principles calculation, on the one hand, the most stable adsorption configurations of rhodium-decorated gallium nitride nanotubes (Rh-GaNNTs) and gas adsorption systems were obtained. On the other hand, the doping and adsorption mechanisms were analyzed by band structure, density of states, deformation charge density, and molecular orbital theory. Subsequently, the gas-sensitive performance of Rh-GaNNTs for these four impurity gases was evaluated by analyzing the sensing response and recovery time. The adsorption stability and recovery time of Rh-GaNNTs to these gases are ranked as SF4 > SOF2 > SO2 > H2S; the order of influence of gas adsorption on sensitivity response is H2S > SO2 > SF4 ≈ SOF2. Calculation results show the potential of Rh-doped surfaces as reusable H2S and SO2 sensors and suggest their use as gas scavengers to remove SF4 and SOF2, especially SOF2.

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用于六氟化硫分解产物传感和清除应用的铑装饰氮化镓纳米管的理论研究
气体绝缘开关设备(GIS)作为现代发电厂和发电站的配电装置发挥着重要作用,通常充入 SF6 绝缘气体。在设备运行过程中,不可避免的局部放电会导致 SF6 分解成气体(SF4、SOF2、SO2 和 H2S),从而降低 GIS 的绝缘性能。本文通过探索新型气体传感材料的特性气体检测,致力于局部放电的检测和不利于绝缘的 SF4 和 SOF2 的清除。基于第一性原理计算,一方面得到了铑装饰氮化镓纳米管(Rh-GaNNTs)最稳定的吸附构型和气体吸附体系。另一方面,通过能带结构、态密度、变形电荷密度和分子轨道理论分析了掺杂和吸附机理。随后,通过分析传感响应和恢复时间,评估了 Rh-GaNNTs 对这四种杂质气体的气敏性能。Rh-GaNT 对这些气体的吸附稳定性和恢复时间依次为 SF4 > SOF2 > SO2 > H2S;气体吸附对灵敏度响应的影响顺序为 H2S > SO2 > SF4 ≈ SOF2。计算结果显示了掺铑表面作为可重复使用的 H2S 和 SO2 传感器的潜力,并建议将其用作清除 SF4 和 SOF2(尤其是 SOF2)的气体清除剂。
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来源期刊
Langmuir
Langmuir 化学-材料科学:综合
CiteScore
6.50
自引率
10.30%
发文量
1464
审稿时长
2.1 months
期刊介绍: Langmuir is an interdisciplinary journal publishing articles in the following subject categories: Colloids: surfactants and self-assembly, dispersions, emulsions, foams Interfaces: adsorption, reactions, films, forces Biological Interfaces: biocolloids, biomolecular and biomimetic materials Materials: nano- and mesostructured materials, polymers, gels, liquid crystals Electrochemistry: interfacial charge transfer, charge transport, electrocatalysis, electrokinetic phenomena, bioelectrochemistry Devices and Applications: sensors, fluidics, patterning, catalysis, photonic crystals However, when high-impact, original work is submitted that does not fit within the above categories, decisions to accept or decline such papers will be based on one criteria: What Would Irving Do? Langmuir ranks #2 in citations out of 136 journals in the category of Physical Chemistry with 113,157 total citations. The journal received an Impact Factor of 4.384*. This journal is also indexed in the categories of Materials Science (ranked #1) and Multidisciplinary Chemistry (ranked #5).
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