Journal ArticleDOI
MOF-74 building unit has a direct impact on toxic gas adsorption
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TLDR
In this article, metal organic framework (MOF-74) analogs have been synthesized using cobalt, magnesium, nickel, and zinc metal centers to remove ammonia, cyanogen chloride, and sulfur dioxide from air.About:
This article is published in Chemical Engineering Science.The article was published on 2011-01-15. It has received 533 citations till now. The article focuses on the topics: Cyanogen chloride & Adsorption.read more
Citations
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Metal–Organic Frameworks for Separations
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Water stability and adsorption in metal-organic frameworks.
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Stable Metal-Organic Frameworks: Design, Synthesis, and Applications.
Shuai Yuan,Liang Feng,Kecheng Wang,Jiandong Pang,Matheiu Bosch,Christina T. Lollar,Yujia Sun,Jun-Sheng Qin,Xinyu Yang,Peng Zhang,Qi Wang,Lanfang Zou,Yingmu Zhang,Liangliang Zhang,Yu Fang,Jialuo Li,Hong-Cai Zhou +16 more
TL;DR: This review is expected to guide the design of stable MOFs by providing insights into existing structures, which could lead to the discovery and development of more advanced functional materials.
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Direct Capture of CO2 from Ambient Air
TL;DR: It is concluded that there are many new materials that could play a role in emerging DAC technologies, however, these materials need to be further investigated and developed with a practical sorbent-air contacting process in mind if society is to make rapid progress in deploying DAC as a means of mitigating climate change.
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Progress in adsorption-based CO2 capture by metal–organic frameworks
TL;DR: Two main challenges of using MOFs in CO(2) capture, the cost of synthesis and the stability toward water vapor, have been analyzed and possible solutions and path forward have been proposed to address the two challenges.
References
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Book
Principles of Adsorption and Adsorption Processes
TL;DR: In this paper, the authors present correlation, analysis, and prediction of adsorption equilibria, including correlation, correlation, and analysis of adorption Equilibria.
PatentDOI
Metal-organic frameworks with exceptionally high capacity for storage of carbon dioxide at room-temperature
Omar M. Yaghi,Andrew R. Millward +1 more
TL;DR: A carbon dioxide storage system includes a container and a conduit attached to the container for introducing or removing a carbon dioxide-containing composition from the container as mentioned in this paper, which is positioned within the container.
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Dramatic tuning of carbon dioxide uptake via metal substitution in a coordination polymer with cylindrical pores.
TL;DR: This study demonstrates that physisorptive materials can achieve affinities and capacities competitive with amine sorbents while greatly reducing the energy cost associated with regeneration.
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Exceptional H2 saturation uptake in microporous metal-organic frameworks.
TL;DR: Results demonstrate that maximum H2 storage capacity in MOFs correlates well to surface area, and that feasible volumetric uptakes can be realized even in highly porous materials.
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Highly efficient separation of carbon dioxide by a metal-organic framework replete with open metal sites
TL;DR: It is reported that a known MOF, Mg-MOF-74, with open magnesium sites, rivals competitive materials in CO2 capture, with 8.9 wt.