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Wide Carbon Nanopores as Efficient Sites for the Separation of SF6 from N2

机译：宽碳纳米孔作为从N2分离SF6的有效位点

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SF6 and SF6-N2 mixed gases are used widely as insulators, but such gases have high greenhouse gas potential. The separation of SF6 from SF6-N2 mixed gases is an inevitable result of their use. Single-walled carbon nanohorns (CNHs) were used here for a fundamental study of the separation of SF6 and N2. The diameters of the interstitial and internal nanopores of the CNHs were 0.7 and 2.9 nm, respectively. The high selectivity of SF6 over N2 was observed only in the low-pressure regime in the interstitial 0.7 nm nanopores; the selectively was significantly decreased at higher pressures. In contrast, the high selectivity was maintained over the entire pressure range in the internal 2.9-nm nanopores. These results showed that the wide carbon nanopores were efficient for the separation of SF6 from the mixed gas.

机译：SF6和SF6-N2混合气体广泛用作绝缘体，但这类气体具有很高的温室气体潜力。从SF6-N2混合气体中分离出SF6是其使用的必然结果。单壁碳纳米角（CNHs）在这里用于SF6和N2分离的基础研究。 CNH的间隙和内部纳米孔的直径分别为0.7和2.9nm。 SF6对N2的高选择性仅在低压条件下在间隙0.7 nm纳米孔中观察到；而在N0.7下，只有较高的选择性。选择性在较高压力下显着降低。相反，在内部2.9 nm纳米孔的整个压力范围内都保持了高选择性。这些结果表明，宽的碳纳米孔对于从混合气体中分离SF6是有效的。

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期刊名称 Scientific Reports
作者
Atsushi Takase; Hirofumi Kanoh; Tomonori Ohba;
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年(卷),期 -1(5),-1
年度 -1
页码 11994
总页数 6
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1. Wide Carbon Nanopores as Efficient Sites for the Separation of SF₆ from N₂ [J] . Atsushi Takase, Hirofumi Kanoh, Tomonori Ohba Scientific reports. . 2015 ,第1期

机译：宽碳纳米孔是分离N _{2 中SF _{6 的有效位点}}
2. Enhanced ferroelectric photovoltaic effect in semiconducting single-wall carbon nanotube/BiFeO3 heterostructures enabled by wide-range light absorption and efficient charge separation [J] . Lee Hojin, Kim Hyo-Sun, Gong Oh Yeong, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2020 ,第20期

机译：通过宽范围的光吸收和有效电荷分离实现了半导体单壁碳纳米管/ BifeO3异质结构的增强的铁电光伏作用
3. Efficient C2Hn Hydrocarbons and VOC Adsorption and Separation in an MOF with Lewis Basic and Acidic Decorated Active Sites [J] . Li Yong-Zhi, Wang Gang-Ding, Shi Wen-Juan, ACS applied materials & interfaces . 2020 ,第37期

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4. Separation On O2, N2, and SF6 Gas Using Carbon Molecular Sieve Hollow Fiber Membranes [C] . SE Jong KIM, Hyung Chul KOH, Chung Seop Lee North American Membrane Society . 2013

机译：使用碳分子筛中空纤维膜在O 2，N 2和SF6气体上分离
5. Gas Separation and Trapping through a Computational Study: Simulation for CO2 / N2 and Poly (1, 3 dioxolane) (PDXL) / Tetrahydrofuran (THF) [D] . Li, Dan 2018

机译：通过计算研究进行气体分离和捕集：CO2 / N2和聚（1，3二氧戊环）（PDXL）/四氢呋喃（THF）的模拟
6. From the Cover: Highly efficient separation of carbon dioxide by a metal-organic framework replete with open metal sites [O] . David Britt, Hiroyasu Furukawa, Bo Wang, 2009

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7. Integrated Material and Process Evaluation of Metal-Organic Frameworks Database for Energy-efficient SF6/N2 Separation [O] . Jaehoon Cha, Seongbin Ga, Seung-Joon LEE, 2021

机译：金属有机框架数据库的集成材料和过程评估，用于节能SF6 / N2分离
8. Adsorption sites in zeolites A and X probed by competitive adsorption of H2 with N2 or O2: implications for N2/O2 separation. [R] . Eckert, J. 1998

机译：通过H2与N2或O2的竞争性吸附探测沸石a和X中的吸附位点：对N2 / O2分离的影响。

Wide Carbon Nanopores as Efficient Sites for the Separation of SF6 from N2

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