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UNVEILING MOLECULAR LEVEL DETAIL OF CO2 ADSORPTION IN SEVERAL EXTENSIVE FAMILIES OF METAL-ORGANIC FRAMEWORKS

机译：揭示金属有机框架的几个广泛家庭中CO2吸附的分子水平细节

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Approximately 80 % of global energy is supplied by carbonbased fossil fuels.1 Resulting high atmospheric CO2 levels and its undesirable impact on global climate has sparked considerable interest in cleaner energy sources. While energy transitions are historically slow, technological solutions for mitigation of current CO2 emissions is becoming more evident. Achieving this task is at present hindered by the development of adequate gas separation technologies. While CO2 extraction from air is not very practical, that of large point sources could become a reality. While coal-fired power plants account for more than 40 % of global CO2 emissions, the most mature capture technology, aqueous amine-based scrubbers, is impeded by high energy costs for regeneration. It is projected that use of physical adsorbents with low-energy regeneration requirements, like metal-organic frameworks, could reduce parasitic loss associated with current capture technologies.

机译：大约80％的全球能源由碳累养的化石燃料提供.1导致高大气的二氧化碳水平及其对全球气候的不良影响引发了对清洁能源的相当兴趣。虽然能源过渡是历史缓慢的，但对当前二氧化碳排放的减轻技术解决方案变得越来越明显。通过开发适当的气体分离技术，目前占据此任务目前受到阻碍。虽然来自空气的二氧化碳提取不是很实用，但大点来源的虽然可能成为现实。虽然燃煤发电厂占全球二氧化碳排放量的40％以上，但最成熟的捕获技术，胺基水银水溶液受到再生的高能量成本阻碍。预计使用具有低能量再生要求的物理吸附剂，如金属 - 有机框架，可以降低与当前捕获技术相关的寄生损失。

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《ACS National Meeting Exposition》|2014年||共2页
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Wendy L. Queen; Jason Lee; Eric D. Bloch Matthew R. Hudson;
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中图分类燃料化学工业（总论）;
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1. Molecular-Level Insight into CO2 Adsorption on the Zirconium-Based Metal-Organic Framework, UiO-66: A Combined Spectroscopic and Computational Approach [J] . Grissom Tyler G., Driscoll Darren M., Troya Diego, The journal of physical chemistry, C. Nanomaterials and interfaces . 2019,第22期

机译：对基于锆的金属 - 有机框架上的CO2吸附的分子水平洞察，UIO-66：一种组合的光谱和计算方法
2. The accessibility of nitrogen sites makes a difference in selective CO2 adsorption of a family of isostructural metal-organic frameworks [J] . Song Chengling, Hu Jiayi, Ling Yajing, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2015,第38期

机译：氮位点的可及性改变了同构金属-有机骨架家族对选择性CO2吸附的影响
3. CO2 adsorption performance of functionalized metal-organic frameworks of varying topologies by molecular simulations [J] . Li Wei, Li Song Chemical Engineering Science . 2018,第期

机译：分子模拟不同拓扑结构的官能化金属 - 有机框架的CO2吸附性能
4. UNVEILING MOLECULAR LEVEL DETAIL OF CO2 ADSORPTION IN SEVERAL EXTENSIVE FAMILIES OF METAL-ORGANIC FRAMEWORKS [C] . Wendy L. Queen, Jason Lee, Eric D. Block ACS National Meeting Exhibition . 2014

机译：在几个金属有机框架家族中揭示CO2吸附的分子水平细节
5. A Molecular Simulation Study of CO2 Adsorption in Metal-Organic Frameworks [D] . Yang, Pan. 2018

机译：金属有机骨架中CO 2吸附的分子模拟研究
6. Lanthanide Metal-Organic Frameworks with Six-Coordinated Ln(III) Ions and Free Functional Organic Sites for Adsorptions and Extensive Catalytic Activities [O] . Yu Zhu, Min Zhu, Li Xia, -1

机译：具有六配位Ln（III）离子和可吸附和广泛催化活性的自由功能性有机位点的镧系金属有机骨架
7. Lanthanide Metal-Organic Frameworks with Six-Coordinated Ln(III) Ions and Free Functional Organic Sites for Adsorptions and Extensive Catalytic Activities [O] . Yu Zhu, Min Zhu, Li Xia, 2016

机译：镧系金属 - 有机框架，具有六个协调的LN（III）离子和用于吸附和广泛的催化活性的自由官能有机部位

UNVEILING MOLECULAR LEVEL DETAIL OF CO2 ADSORPTION IN SEVERAL EXTENSIVE FAMILIES OF METAL-ORGANIC FRAMEWORKS

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