Graphdiyne as a High-Efficiency Membrane for Separating Oxygen from Harmful Gases: A First-Principles Study

Meng Zhaoshun; Zhang Xirui; Zhang Yadong; Gao Haiqi; Wang Yunhui; Shi Qi; Rao Dewei; Liu Yuzhen; Deng Kaiming; Lu Ruifeng

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Graphdiyne as a High-Efficiency Membrane for Separating Oxygen from Harmful Gases: A First-Principles Study

机译：Graphdiyne作为一种从有害气体中分离氧气的高效膜：第一性原理研究

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We theoretically explored the adsorption and diffusion properties of oxygen and several harmful gases penetrating the graphdiyne monolayer. According to our first-principles calculations, the oxidation of the acetylenic bond in graphdiyne needs to surmount an energy barrier of ca. 1.97 eV, implying that graphdiyne remains unaffected under oxygen-rich conditions. In a broad temperature range, graphdiyne with well-defined nanosized pores exhibits a perfect performance for oxygen separation from typical noxious gases, which should be of great potential in medical treatment and industry.

机译：我们从理论上探讨了氧气和渗透穿过石墨二炔单层的几种有害气体的吸附和扩散特性。根据我们的第一性原理计算，石墨二炔中炔键的氧化需要克服约300的能垒。 1.97 eV，这表明石墨二炔在富氧条件下仍然不受影响。在宽广的温度范围内，具有明确定义的纳米孔的石墨二炔对于从典型的有毒气体中分离氧气表现出完美的性能，这在医疗和工业领域应具有巨大的潜力。

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《ACS applied materials & interfaces》 |2016年第41期|共5页
作者
Meng Zhaoshun; Zhang Xirui; Zhang Yadong; Gao Haiqi; Wang Yunhui; Shi Qi; Rao Dewei; Liu Yuzhen; Deng Kaiming; Lu Ruifeng;
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正文语种 eng
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monolayer membrane; graphdiyne; oxygen separation; adsorption; selectivity; permeance; first-principles calculations;

机译：单层膜;石墨二炔;氧分离;吸附;选择性;磁导率;第一性原理计算;
入库时间 2022-08-19 12:27:53

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1. Graphdiyne as a High-Efficiency Membrane for Separating Oxygen from Harmful Gases: A First-Principles Study [J] . Meng Zhaoshun, Zhang Xirui, Zhang Yadong, ACS applied materials & interfaces . 2016,第41期

机译：Graphdiyne作为一种从有害气体中分离氧气的高效膜：第一性原理研究
2. Nitrogen-Modified Graphdiyne as a Promising Membrane for Helium Separation: First-Principles and Molecular Dynamics Simulations [J] . Jing Xu, Jing Li, Hai Jun Liu, Diffusion and Defect Data. Solid State Data, Part A. Defect and Diffusion Forum . 2017,第期

机译：氮气改性的石墨酰基作为氦分离的有前途的膜：第一原理和分子动力学模拟
3. A new approach to separate hydrogen from carbon dioxide using graphdiyne-like membrane [J] . Parham Rezaee, Hamid Reza Naeij Scientific reports. . 2020,第1期

机译：用石墨酰胺膜将氢与二氧化碳分离氢的新方法
4. Study on Composite Membrane with Low Pressure Operation to Separate Oxygen and Nitrogen [C] . Weng Ji, Liu Liying, Wang Qun Proceedings second joint China/USA chemical engineering conference . 1997

机译：低压分离氧氮分离复合膜的研究
5. First-principles study of chemisorbed light gases on transition metal and transition metal oxide surfaces: Structure, dynamics and reaction [D] . Hong, Sampyo 2005

机译：过渡金属和过渡金属氧化物表面上化学光气的第一原理研究：结构，动力学和反应
6. Dirac cone in α-graphdiyne: a first-principles study [O] . Xiaoning Niu, Xingze Mao, Dezheng Yang, 2013

机译：α-graphdiyne中的狄拉克锥：第一性原理研究
7. Mechanism of Gases Transfer through Polymer Membranes and Membrane Module Calculation Model to Separate Gases [O] . Zhanat Umarova, Sharipzhan Eskendirov 2012

机译：气体通过聚合物膜的传输机理及膜组件计算模型分离气体
8. Separating hydrogen from coal gasification gases with alumina membranes. [R] . Egan, B. Z., Fain, D. E., Roettger, G. E., 1991

机译：用氧化铝膜从煤气化气体中分离氢气。

Graphdiyne as a High-Efficiency Membrane for Separating Oxygen from Harmful Gases: A First-Principles Study

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