| [1] | 崔豪. 复合掺杂碳纳米管检测六氟化硫分解组分的气敏传感研究[D]. 重庆: 重庆大学, 2019. Cui H. Gas sensing properties of co-doped carbon nanotubes for detection of SF6 decomposed species[D].Chongqing University, 2019 |
| [2] | Wang Y. B, Zhang D Y, Han J H, et al., Porous Mo2C-Mo3N2 heterostructure/rGO with synergistic functions as polysulfides regulator for high-performance lithium sulfur batteries[J]. Chemical Engineering Journal,2022:433 |
| [3] | Chen DC,Tang J,Zhang XX,et al. detection of SF6 decomposition products using MoS2 nanoflakes: gas sensing properties combined with mechanism study[J]. Proceedings of the CSEE,2022,42(22):8390−8404 (陈达畅,唐炬,张晓星,等. 检测SF6分解特征组分的MoS2纳米片气敏特性与机理研究[J]. 中国电机工程学报,2022,42(22):8390−8404(in chinese) Chen DC, Tang J, Zhang XX, et al.detection of SF6 decomposition products using MoS2 nanoflakes: gas sensing properties combined with mechanism study[J]. Proceedings of the CSEE,2022,42(22):8390-8404 |
| [4] | Zhang XX,Wu FQ,Tie J,et al. TiO2 nanotube array sensor for detecting SF6 decomposition component SO2F2[J]. High Voltage Engineering,2014,40(11):3396−3402 (张晓星,吴法清,铁静,等. 二氧化钛纳米管气体传感器检测SF6的气体分解组分SO2F2的气敏特性[J]. 高电压技术,2014,40(11):3396−3402(in chinese) Zhang XX, Wu FQ, Tie J, et al.TiO2 nanotube array sensor for detecting SF6 decomposition component SO2F2[J]. High Voltage Engineering, 2014,40(11):3396-3402 |
| [5] | Zhang XX,Meng FS,Ren JB.et al. Simulation on the b-doped single-walled carbon nanotubes detecting the partial discharge of SF6[J]. High Voltage Engineering,2011,37(07):1689−1694 (张晓星,孟凡生,任江波,等. 硼掺杂单壁碳纳米管检测SF6气体局部放电仿真[J]. 高电压技术,2011,37(07):1689−1694(in chinese) Zhang XX, Meng FS, Ren JB.et al.Simulation on the b-doped single-walled carbon nanotubes detecting the partial discharge of SF6[J]. High Voltage Engineering, 2011,37(07):1689-1694 |
| [6] | Wei Z,Zhou Q,Zeng W. Hierarchical WO3–NiO microflower for high sensitivity detection of SF6 decomposition by product H2S[J]. Nanotechnology,2020,31(21):215701 doi: 10.1088/1361-6528/ab73bd |
| [7] | Zhang XX,Fang JN,Cui H,et al. Review: adsorption principle and application of carbon nanotubes to SF6 decomposition components[J]. Proceedings of the CSEE,2018,38(16):4926−4941+4997 (张晓星,方佳妮,崔豪,等. 碳纳米管传感器吸附机理及对SF6分解组分检测应用综述[J]. 中国电机工程学报,2018,38(16):4926−4941+4997(in chinese) Zhang XX, Fang JN, Cui H, et al.Review: Adsorption principle and application of carbon nanotubes to SF6 decomposition components [J]. Proceedings of the CSEE,2018,38(16):4926-4941+4997 |
| [8] | Tang J,Yang D,Zeng FP,et al. Research status of SF6 insulation equipment fault diagnosis method and technology based on decomposed components analysis[J]. Transactions Of China Electrotechnical Society,2016,31(20):41−54 (唐炬,杨东,曾福平,等. 基于分解组分分析的SF6设备绝缘故障诊断方法与技术的研究现状[J]. 电工技术学报,2016,31(20):41−54(in chinese) doi: 10.3969/j.issn.1000-6753.2016.20.004 Tang J, Yang D, Zeng FP, et al.Research status of SF6 insulation equipment fault diagnosis method and technology based on decomposed components analysis[J]. Transactions Of China Electrotechnical Society ,2016,31(20):41-54 doi: 10.3969/j.issn.1000-6753.2016.20.004 |
| [9] | Wang H,Li XJ,Li Z. et al. Research progress of SO2 and H2S gas sensors for insulation fault detection of SF6 electrical equipment[J]. High Voltage Apparatus,2019,55(08):1−9 (王辉,李晓军,李舟. SF6电气设备绝缘故障诊断用SO2、H2S气体传感器研究进展[J]. 高压电器,2019,55(08):1−9(in chinese) Wang H, Li XJ, Li Z.et al.Research progress of SO2and H2S gas sensors for insulation fault detection of SF6 electrical equipment[J]. High Voltage Apparatus, 2019,55(08):1-9 |
| [10] | Dou XJ,Ye RX,Fu JH.et al. Research Status of SF6 gas decomposition products detection methods and their application[J]. Power System and Clean Energy,2019,35(07):24−31 (窦小晶,叶日新,付纪华,等. SF6气体分解产物检测技术及其应用的研究现状[J]. 电网与清洁能源,2019,35(07):24−31(in chinese) doi: 10.3969/j.issn.1674-3814.2019.07.004 Dou XJ, Ye RX, Fu JH.et al.Research Status of SF6 gas decomposition products detection methods and their application[J]. Power System and Clean Energy, 2019,35(07):24-31 doi: 10.3969/j.issn.1674-3814.2019.07.004 |
| [11] | Cui Hao,Jia Pengfei,Peng Xiaoyan,et al. Adsorption and sensing of CO and C2H2 by S-defected SnS2 monolayer for DGA in transformer oil: A DFT study[J]. Materials Chemistry and Physics[J],2020,249:123006 |
| [12] | Wang Jincong,Zhang Xiaoxing,Liu Li,et al. Dissolved gas analysis in transformer oil using Ni-doped gan monolayer: a DFT study[J]. Superlattices and Microstructures,2021:159 |
| [13] | Jia Pengfei,Qiao Siqi,Wang Yu,et al. Pd-decorated GaN monolayer as a promising scavenger for SO2 and SOF2 in SF6 insulation equipment: a first-principles study. computational and theoretical chemistry[J]. 2021,1201:6 |
| [14] | Huang Jialiang,Huang Jialiang,Wang Zhenyu,et al. Chemisorption of NO2 to MoS2 nanostructures and its effects for MoS2 sensors[J]. Chem Nano Matt,2019,5(9):1123−1130 doi: 10.1002/cnma.201900350 |
| [15] | Liu Yupeng,Zhou Qu,Mi Hongwan,et al. Gas-sensing mechanism of Cr doped SnP3 monolayer to SF6 partial discharge decomposition components[J]. Applied Surface Science,2021,546:149084 doi: 10.1016/j.apsusc.2021.149084 |
| [16] | Jincong Wang,Xiaoxing Zhang,Li Liu,et al. Adsorption of SF6 decomposition products by the s vacancy structure and edge structure of SnS2: a density functional theory study[J]. ACS Omega,2021,6(42):28131−28139 doi: 10.1021/acsomega.1c04210 |
| [17] | Zhang X X,Wang J C,Chen D C.et al. Calculation of adsorption performance ti dopped with MoS2 to CF4, C2F6 and COF2 Based on the first-principle[J]. High Voltage Apparatus,2021,57(03):89−96 (张晓星,王锦聪,陈达畅,等. 基于第一性原理计算Ti掺杂MoS2对CF4、C2F6和COF2的吸附性能[J]. 高压电器,2021,57(03):89−96(in chinese) Zhang XX, Wang JC, Chen DC.et al.Calculation of adsorption performance ti dopped with MoS2 to CF4, C2F6 and COF2 Based on the first⁃principle[J]. High Voltage Apparatus, 2021,57(03):89-96 |
| [18] | Xiaoxing Zhang,Li Liu,Jincong Wang,et al. Detection of SF6 decomposition components by pristine and Cr doped GaN based on the first-principles theory[J]. Computational and Theoretical Chemistry,2021,1205:113431 doi: 10.1016/j.comptc.2021.113431 |
| [19] | Xiaoxing Zhang,Jincong Wang,Dachang Chen,et al. The adsorption performance of harmful gas on Cu doped WS2: A first-principle study[J]. Materials Today Communications,2021,28(9):102488 |
| [20] | Pi SM,Zhang XX,Fang JN. et al. Different PtNPs doped graphene sensor for detecting gas sensitive property of SF6 decomposition components[J]. High Voltage Apparatus,2022,58(02):67−72+81 (皮守苗,张晓星,方佳妮,等. 不同PtNPs掺杂量石墨烯传感器检测SF6分解组分的气敏特性[J]. 高压电器,2022,58(02):67−72+81(in chinese) Pi SM, Zhang XX, Fang JN. et al.Different PtNPs doped graphene sensor for detecting gas sensitive property of SF6 decomposition components[J]. High Voltage Apparatus, 2022,58(02):67-72+81 |
| [21] | 郑世英, 曹志刚, 曹阳, 等. 基于第一性原理的铜掺杂氧化锌对变压器油中溶解气体的吸附特性研究[J/OL]. 真空科学与技术学报, 2022. Zheng SY, Cao ZG, Cao Y. et al.Study on adsorption characteristics of dissolved gas in transformer oil by copper doped zinc oxide[J]. High Voltage Apparatus, 2022 |