| 阴离子功能化超微孔MOF高效选择性捕获低浓度CO2 |
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| 引用本文: | 张照强,丁琦,崔稷宇,崔希利,邢华斌. 阴离子功能化超微孔MOF高效选择性捕获低浓度CO2[J]. SCIENCE CHINA Materials, 2021, 0(3): 691-697 |
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| 作者姓名: | 张照强 丁琦 崔稷宇 崔希利 邢华斌 |
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| 作者单位: | Key Laboratory of Biomass Chemical Engineering of Ministry of Education |
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| 基金项目: | the National Natural Science Foundation of China(21938011,U1862110,21890764 and21725603);the National Program for Support of Top-notch Young Professionals(H.X.)。 |
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| 摘 要: | CO2捕获,尤其低浓度CO2捕获,对人类在限域空间中长时间工作、降低天然气液化过程中CO2腐蚀及冻结效应极为重要.本文首次报道了一种具有一维孔道的ZU-16-Co(TIFSIX-3-Co)材料,该材料孔道中含大量电负性F原子,可实现400–10,000 ppm浓度下CO2的高效捕获.相比同构材料,孔径为3.62?的ZU...
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| 关 键 词: | 主客体相互作用 电负性 超微孔 穿透实验 天然气液化 功能化 分离性能 功能位点 |
High and selective capture of low-concentration CO2 with an anion-functionalized ultramicroporous metal-organic framework |
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| Zhaoqiang Zhang,Qi Ding,Jiyu Cui,Xili Cui,Huabin Xing. High and selective capture of low-concentration CO2 with an anion-functionalized ultramicroporous metal-organic framework[J]. , 2021, 0(3): 691-697 |
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| Authors: | Zhaoqiang Zhang Qi Ding Jiyu Cui Xili Cui Huabin Xing |
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| Affiliation: | (Key Laboratory of Biomass Chemical Engineering of Ministry of Education,College of Chemical and Biological Engineering,Zhejiang University,Hangzhou,310027,China) |
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| Abstract: | CO2 capture,especially under low-pressure range,is of significance to maintain long-duration human operation in confined spaces and decrease the CO2 corrosion and freezing effect for the liquefaction of natural gas.Herein,we for the first time report a novel anion-functionalized ZU-16-Co(TIFSIX-3-Co,TIFSIX=hexafluorotitanate(TiF62−),3=pyrazine),which exhibits one-dimensional pore channels decorated by abundant F atoms,for efficient CO2 capture at a concentration around 400–10,000 ppm.Among its isostructural MFSIX-3(M=Si,Ti,Ge)family materials,ZU-16-Co with fine-tuned pore size of 3.62Åexhibits the highest CO2 uptake at 0.01 bar(10,000 ppm)and 1 bar(2.63 and 2.87 mmol g−,respectively).The high CO2 capture ability of ZU-16-Co originates from the fine-tuned pore dimensions with strong F⋯C=O host-guest interactions and relatively large pore volumes coming from its longer coordinated Ti-F-Co distance(3.9Å)in c direction.The excellent carbon trapping performance was further verified by dynamic breakthrough tests for CO2/N2(1/99 and 15/85)and CO2/CH4(50/50)mixtures.The adsorption and separation performances,resulting from the fine-tuned pore system with periodic arrays of exposed functionalities,demonstrate that ultramicroporous ZU-16-Co can be a promising adsorbent for low-concentration carbon capture. |
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| Keywords: | carbon capture ultramicroporous metal-organic frameworks gas adsorption CO2/N2 separation natural gas purification |
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