Extreme Carbon Dioxide Sorption Hysteresis in Open-Channel Rigid Metal-Organic Frameworks

Bezuidenhout Charl X.; Smith Vincent J.; Bhatt Prashant M.; Esterhuysen Catharine; Barbour Leonard J.

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Extreme Carbon Dioxide Sorption Hysteresis in Open-Channel Rigid Metal-Organic Frameworks

机译：明渠刚性金属有机框架中的极端二氧化碳吸附滞后

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A systematic study is presented of three closely related microporous metal-organic frameworks the pore dimensions of which vary according to the choice of 4,4'-bipyridyl linker. The tunable linker allows exploration of the effect of increasing pore dimensions on the sorption behavior of the frameworks. The MOFs described capture CO2 under supercritical conditions and continue to sequester the gas under ambient conditions. Gas sorption isotherms for CO2 are compared with thermogravimetric data, and the CO2 molecules in the channels of the frameworks could be modeled using single-crystal X-ray diffraction analysis. Crystallographic data were used to construct a theoretical model based on DFT methods to calculate framework electrostatic potential maps with a view to understanding the nature of the sorbate-sorbent interactions.

机译：对三种紧密相关的微孔金属有机框架进行了系统研究，其孔尺寸根据4,4'-联吡啶基接头的选择而变化。可调接头允许探索增加孔径的影响对骨架吸附性能的影响。所描述的MOF在超临界条件下捕获二氧化碳，并在环境条件下继续隔离气体。将CO2的气体吸附等温线与热重数据进行比较，可以使用单晶X射线衍射分析对骨架通道中的CO2分子进行建模。晶体学数据用于构建基于DFT方法的理论模型，以计算框架静电势图，以了解吸附剂与吸附剂相互作用的性质。

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《Angewandte Chemie》 |2015年第7期|共5页
作者
Bezuidenhout Charl X.; Smith Vincent J.; Bhatt Prashant M.; Esterhuysen Catharine; Barbour Leonard J.;
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carbon dioxide sorption; extreme hysteresis; framework electrostatic potential; high-pressure sorption; molecular electrostatic potential;

机译：二氧化碳吸附极迟滞骨架静电势高压吸附分子静电势;

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1. Extreme Carbon Dioxide Sorption Hysteresis in Open-Channel Rigid Metal-Organic Frameworks [J] . Bezuidenhout Charl X., Smith Vincent J., Bhatt Prashant M., Angewandte Chemie . 2015,第7期

机译：明渠刚性金属有机框架中的极端二氧化碳吸附滞后
2. Interchanged Hysteresis for Carbon Dioxide and Water Vapor Sorption in a Pair of Water-Stable, Breathing, Isoreticular, 2-Periodic, Zn(II)-Based Mixed-Ligand Metal Organic Frameworks [J] . Gcwensa Nolwazi, Chatterjee Nabanita, Oliver Clive L. Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2019,第3期

机译：一对水稳态，呼吸，非型，2元，Zn（II）的互换二氧化碳和水蒸气吸收的滞后和水蒸气吸附 - 基于混合配体金属有机框架
3. Sorption of Methane and Carbon Dioxide on Nano Porous Zinc Carboxylate Metal-organic Framework [J] . Anbia M., Pazoki H. International Journal of Environmental Research . 2016,第3期

机译：纳米多孔羧酸锌金属-有机骨架对甲烷和二氧化碳的吸附
4. LITHIUM MODIFICATION ON METAL-ORGANIC FRAMEWORKS/COVALENT-ORGANIC FRAMEWORK FOR ENHANCING ENERGY STORAGE AND CARBON DIOXIDE CAPTURE [C] . Zhonghua Xiang, Dapeng Cao 7th international green energy conference amp; 1st DNL conference on clean energy . 2012

机译：金属-有机骨架/价-有机-骨架上的锂改性，以提高能量储存和二氧化碳的捕获能力
5. Design, synthesis, characterization, and sorption properties of metal-organic frameworks and polyhedra based on [iron(3)oxide(R dioxide)(6)L(3)](0/+) clusters. [D] . Sudik, Andrea C. 2005

机译：设计，合成，表征，和基于[铁（3）氧化物（R二氧化）（6）L（3）]（0 / +）簇的多面体的吸附性能。
6. Sorption Hysteresis of Light Hydrocarbons and Carbon Dioxide in Shale and Kerogen [O] . Huangjing Zhao, Zhiping Lai, Abbas Firoozabadi -1

机译：页岩和干酪根中轻烃和二氧化碳的吸附滞后
7. Metal-Organic Framework Based on a Trinickel Secondary Building Unit Exhibiting Gas-Sorption Hysteresis [O] . -1

机译：基于Trinickel二级建筑装置的金属 - 有机框架，其表现出储气滞后

Extreme Carbon Dioxide Sorption Hysteresis in Open-Channel Rigid Metal-Organic Frameworks

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