Large-scale polymeric carbon nanotube membranes with sub–1.27-nm pores

Robert L. McGinnis; Kevin Reimund; Jian Ren; Lingling Xia; Maqsud R. Chowdhury; Xuanhao Sun; Maritza Abril; Joshua D. Moon; Melanie M. Merrick; Jaesung Park; Kevin A. Stevens; Jeffrey R. McCutcheon; Benny D. Freeman

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Large-scale polymeric carbon nanotube membranes with sub–1.27-nm pores

机译：具有小于1.27 nm的孔的大规模聚合物碳纳米管膜

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We report the first characterization study of commercial prototype carbon nanotube (CNT) membranes consisting of sub–1.27-nm-diameter CNTs traversing a large-area nonporous polysulfone film. The membranes show rejection of NaCl and MgSO₄ at higher ionic strengths than have previously been reported in CNT membranes, and specific size selectivity for analytes with diameters below 1.24 nm. The CNTs used in the membranes were arc discharge nanotubes with inner diameters of 0.67 to 1.27 nm. Water flow through the membranes was 1000 times higher than predicted by Hagen-Poiseuille flow, in agreement with previous CNT membrane studies. Ideal gas selectivity was found to deviate significantly from that predicted by both viscous and Knudsen flow, suggesting that surface diffusion effects may begin to dominate gas selectivity at this size scale.

机译：我们报告了商业原型碳纳米管（CNT）膜的首次表征研究，该膜由直径小于1.27 nm的CNT穿过大面积无孔聚砜膜组成。该膜在比以前的CNT膜更高的离子强度下显示出NaCl和MgSO _{4 的排斥，并且对直径小于1.24 nm的分析物具有特定的尺寸选择性。膜中使用的CNT是内径为0.67至1.27 nm的电弧放电纳米管。与以前的CNT膜研究相一致，通过膜的水流量比Hagen-Poiseuille流量预测的高1000倍。发现理想的气体选择性明显不同于由粘性和克努森流预测的气体选择性，这表明在此尺寸范围内，表面扩散效应可能开始主导气体选择性。}

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《Science Advances》 |2018年第3期|共页
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Robert L. McGinnis; Kevin Reimund; Jian Ren; Lingling Xia; Maqsud R. Chowdhury; Xuanhao Sun; Maritza Abril; Joshua D. Moon; Melanie M. Merrick; Jaesung Park; Kevin A. Stevens; Jeffrey R. McCutcheon; Benny D. Freeman;
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2. Carbon nanotube immobilized membrane with controlled nanotube incorporation via phase inversion polymerization for membrane distillation based desalination [J] . Ragunath Smruti, Roy Sagar, Mitra Somenath Separation and Purification Technology . 2018,第期

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3. Multi-walled carbon nanotube/PVDF blended membranes with sponge- and finger-like pores for direct contact membrane distillation [J] . Silva Tania L. S., Morales-Torres Sergio, Figueiredo Jose L., Desalination: The International Journal on the Science and Technology of Desalting and Water Purification . 2015,第Null期

机译：具有海绵状和手指状孔的多壁碳纳米管/ PVDF混合膜，用于直接接触膜蒸馏
4. Unleashing the potential of carbon-nanotubes for removing oil from water: Their deployment in pore channels of ceramic membrane [C] . X. Chen, L. Hong Euromembrane Conference . 2013

机译：释放碳纳米管用于从水中除去油的潜力：它们在陶瓷膜的孔通道中部署
5. Do Membranes Dream of Electric Tubes? Advanced Membranes Using Carbon Nanotube - Polymer Nanocomposites. [D] . de Lannoy, Charles-Francois Pedro Claude Karolek Ghislain. 2014

机译：膜是否梦想着电子管？使用碳纳米管的高级膜-聚合物纳米复合材料。
6. Large-scale polymeric carbon nanotube membranes with sub–1.27-nm pores [O] . Robert L. McGinnis, Kevin Reimund, Jian Ren, 2018

机译：具有小于1.27 nm的孔的大规模聚合物碳纳米管膜
7. Large-scale polymeric carbon nanotube membranes with sub–1.27-nm pores [O] . Robert L. McGinnis, Kevin Reimund, Jian Ren, 2018

机译：具有Sub-1.27-Nm孔的大规模聚合物碳纳米管膜

Large-scale polymeric carbon nanotube membranes with sub–1.27-nm pores

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