Adsorption Behavior of Dissolved Gas Molecules in Transformer Oil on Rh Modified GeSe Monolayer

Long, Yunfeng; Peng, Zhaoyu; Guo, Liang-Yan; He, Xiaohui; Zhu, Mengyao; Yang, Zewen; Liu, Taiwen

doi:10.1021/acsomega.3c09001

ACS Omega

2024

DOI: 10.1021/acsomega.3c09001

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Adsorption Behavior of Dissolved Gas Molecules in Transformer Oil on Rh Modified GeSe Monolayer

Yunfeng Long,

Zhaoyu Peng,

Liang-Yan Guo

et al.

Abstract: Dissolved gas analysis in transformer oil is useful for detecting early transformer failures. The research on gas sensors for monitoring dissolved gas in transformer oil has attracted wide attention from academia and industry. In this study, Rh-doped GeSe monolayers were used as gas sensing materials based on the density functional theory (DFT). The potential of the Rh-GeSe monolayer as a gas sensor was evaluated by calculating the geometric structure, adsorption distance (d sub/gas ), binding energy (E b ), a… Show more

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Cited by 2 publications

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Metal Oxide (Ag₂O, ZnO)-Doped MoSe₂ Monolayer as a Highly Sensitive Gas Sensor for Greenhouse Gases (CO₂, CH₄, N₂O, SF₆) Detection

Wang,

Xia,

2024

ACS Appl. Nano Mater.

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With the increasing severity of greenhouse gas emissions, studying the detection and adsorption of greenhouse gases (GHGs) is indispensable. Therefore, aiming at four typical GHGs (CO 2 , CH 4 , N 2 O, and SF 6 ), this study uses density functional theory (DFT) to calculate the gas-sensitive properties of metal oxide (Ag 2 O, ZnO)-doped MoSe 2 (MO-MoSe 2 ) nanomaterials to these gases. By analyzing the properties of adsorption energy, density of states, band structure, work function, and recovery time, we found that metal oxide (Ag 2 O, ZnO) doping can markedly enhance the adsorption capacity of MoSe 2 monolayer on greenhouse gases, and the two doping materials have the application prospect as highly sensitive greenhouse gas sensors. Both Ag 2 O-MoSe 2 and ZnO-MoSe 2 have chemical adsorption on CO 2 and N 2 O with adsorption energies ranging from −0.8 to −0.9 eV, and strong physical adsorption on CH 4 and SF 6 with adsorption energies between −0.7 and −0.8 eV. The large adsorption energy indicates that the two doping materials can be used as adsorbents for these gases. In addition, Ag 2 O-MoSe 2 and ZnO-MoSe 2 have excellent desorption capacity for these four gases at room temperature, such as recovery times of 3.40, 25.54, etc., making them the potential to be used as recyclable gas sensor materials. This research can provide theoretical guidance for the preparation of greenhouse gas sensors, which is conducive to the recovery and emission reduction of greenhouse gases.

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Metal Oxide (Ag₂O, ZnO)-Doped MoSe₂ Monolayer as a Highly Sensitive Gas Sensor for Greenhouse Gases (CO₂, CH₄, N₂O, SF₆) Detection

Wang,

Xia,

2024

ACS Appl. Nano Mater.

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Novel gas sensing mechanisms of Pd and Rh-doped h-BN monolayers for detecting dissolved gases (H2、CH4、and C2H4) in transformer oil

Jiang,

Yang,

Zeng

et al. 2024

Front. Chem.

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Detecting dissolved gases in transformer oil is crucial for assessing the operational status of transformers. The gas composition in transformer oil can reflect the health status of the equipment and help identify potential failure risks in a timely manner. Based on density functional theory (DFT), Pd and Rh atoms were doped into the h-BN monolayer, and the most stable adsorption structures for each were first explored. Then, the sensing performance of the Pd-doped and Rh-doped h-BN monolayers for H2, CH4, and C2H4 gases was analyzed. The results indicate that Pd-BN and Rh-BN exhibit enhanced sensitivity to H2 and C2H4 gases compared to pristine h-BN. However, they show poor adsorption characteristics for CH4. Both Pd-BN and Rh-BN demonstrate strong chemisorption for H2 and C2H4. In contrast, CH4 adsorption is predominantly physisorbed. The desorption time of H2 from Pd-BN at 398 K is 164 s, reflecting its excellent desorption performance. Additionally, Pd-BN and Rh-BN monolayers exhibit exceptional C2H4 capture capabilities, with adsorption energies of −1.697 eV and −2.188 eV, respectively, indicating their potential as C2H4 gas adsorbents. These findings provide theoretical insights for selecting materials for dissolved gas detection in oil and lay the groundwork for the development of Pd-BN and Rh-BN-based gas sensors.

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Adsorption Behavior of Dissolved Gas Molecules in Transformer Oil on Rh Modified GeSe Monolayer

Cited by 2 publications

References 36 publications

Metal Oxide (Ag₂O, ZnO)-Doped MoSe₂ Monolayer as a Highly Sensitive Gas Sensor for Greenhouse Gases (CO₂, CH₄, N₂O, SF₆) Detection

Metal Oxide (Ag₂O, ZnO)-Doped MoSe₂ Monolayer as a Highly Sensitive Gas Sensor for Greenhouse Gases (CO₂, CH₄, N₂O, SF₆) Detection

Novel gas sensing mechanisms of Pd and Rh-doped h-BN monolayers for detecting dissolved gases (H2、CH4、and C2H4) in transformer oil

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Product

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About

Adsorption Behavior of Dissolved Gas Molecules in Transformer Oil on Rh Modified GeSe Monolayer

Cited by 2 publications

References 36 publications

Metal Oxide (Ag2O, ZnO)-Doped MoSe2 Monolayer as a Highly Sensitive Gas Sensor for Greenhouse Gases (CO2, CH4, N2O, SF6) Detection

Metal Oxide (Ag2O, ZnO)-Doped MoSe2 Monolayer as a Highly Sensitive Gas Sensor for Greenhouse Gases (CO2, CH4, N2O, SF6) Detection

Novel gas sensing mechanisms of Pd and Rh-doped h-BN monolayers for detecting dissolved gases (H2、CH4、and C2H4) in transformer oil

Contact Info

Product

Resources

About

Metal Oxide (Ag₂O, ZnO)-Doped MoSe₂ Monolayer as a Highly Sensitive Gas Sensor for Greenhouse Gases (CO₂, CH₄, N₂O, SF₆) Detection

Metal Oxide (Ag₂O, ZnO)-Doped MoSe₂ Monolayer as a Highly Sensitive Gas Sensor for Greenhouse Gases (CO₂, CH₄, N₂O, SF₆) Detection