共查询到18条相似文献,搜索用时 78 毫秒
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离子液体在气体分离中的应用 总被引:1,自引:0,他引:1
离子液体是一类“可设计溶剂”,具有极低的蒸气压,几乎不挥发以及选择性溶解能力,近年来在气体分离领域得到了广泛的关注。本文综述了CO2和SO2等酸性气体、低碳链烷烃、烯烃和炔烃等有机气体,以及H2、O2、CO、N2、Ar、Xe等其他气体在离子液体中的溶解性能,归纳了气体在离子液体中的溶解机理和溶解规律,分析了离子液体结构与溶解度、分离性质的定性关系,其中具有胺基、胍基等碱性基团的功能化离子液体对CO2、SO2等酸性气体具有良好的溶解性,含有不饱和基团的离子液体通过π-π相互作用可以改善烯烃在离子液体中的溶解度,炔烃则易溶于氢键碱性较强的离子液体;并介绍了离子液体/气体二元体系分子模拟、溶解度关联模型以及离子液体固定化用于气体分离等工作的研究进展,探讨了离子液体气体分离研究存在的问题和未来发展方向。 相似文献
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Kecheng Jie Nicole Onishi Jennifer A. Schott Ilja Popovs De‐en Jiang Shannon Mahurin Sheng Dai 《Angewandte Chemie (International ed. in English)》2020,59(6):2268-2272
Porous liquids are a type of porous materials that engineer permanent porosity into unique flowing liquids, exhibiting promising functionalities for a variety of applications. Here a Type I porous liquid is synthesized by transforming porous organic cages into porous ionic liquids via a supramolecular complexation strategy. Simple physical mixing of 18‐crown‐6 with task‐specific anionic porous organic cages affords a porous ionic liquid with anionic porous organic cages as the anionic parts and 18‐crown‐6/potassium ion complexes as the cationic parts. In contrast, mixing of 15‐crown‐5 and anionic porous organic cages in a 2:1 ratio gives only solids, while the addition of excess 15‐crown‐5 affords a Type II porous liquid. The permanent porosity in the cage‐based porous liquids has been also confirmed by molecular simulation, positron (e+) annihilation lifetime spectroscopy, and enhanced gas sorption capacity compared with pure crown ethers. 相似文献
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CO2是导致温室效应的最主要成分,因此碳捕集技术的研究受到学术界和产业界的高度重视。离子液体具有不挥发、不燃烧、热稳定性好、溶解能力强、结构和性质可调节并可循环使用等特性,在CO2的吸收/分离领域展现了广阔的应用前景。本文系统地综述了近年来常规离子液体、功能化离子液体、支撑离子液体膜、聚合离子液体以及离子液体与分子溶剂的混合物在捕集CO2方面的研究进展;讨论了离子液体的阳离子结构、阴离子类型、烷基链长度、阴/阳离子的氟化程度和功能化、离子液体的负载作用和聚合效应以及体系的温度和压力对CO2选择性捕集性能的影响;分析了可能的捕集机理以及各种捕集方法的优点和缺点;提出了目前需要进一步研究的若干重要问题,并对其发展前景进行了展望。 相似文献
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Dr. Shruti Trivedi Sidney G. Coombs Durgesh V. Wagle Nakara Bhawawet Prof. Gary A. Baker Prof. Frank V. Bright 《Chemistry (Weinheim an der Bergstrasse, Germany)》2016,22(33):11677-11684
To develop ionic liquid/porous silicon (IL/pSi) microarrays we have contact pin‐printed 20 hydrophobic and hydrophilic ionic liquids onto as‐prepared, hydrogen‐passivated porous silicon (ap‐pSi) and then determined the individual IL spot size, shape and associated pSi surface chemistry. The results reveal that the hydrophobic ionic liquids oxidize the ap‐pSi slightly. In contrast, the hydrophilic ionic liquids lead to heavily oxidized pSi (i.e., ox‐pSi). The strong oxidation arises from residual water within the hydrophilic ILs that is delivered from these ILs into the ap‐pSi matrix causing oxidation. This phenomenon is less of an issue in the hydrophobic ILs because their water solubility is substantially lower. 相似文献
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Ralf Giernoth Priv.‐Doz. Dr. 《Angewandte Chemie (International ed. in English)》2010,49(16):2834-2839
In recent years, ionic liquids have attracted the attention of many chemists as a result of their unique properties as solvents for chemical transformations. The focus of this Minireview is on applications of so‐called “task‐specific” ionic liquids, whereby the role of the ionic liquid goes beyond that of a solvent. Such ionic liquids find application in a wide range of areas, including catalysis, synthesis, gas absorption, and analysis. 相似文献
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磁性离子液体是指能够吸附在磁铁上,在外加磁场作用下具有一定磁化强度的离子液体。本文综述了自2004年磁性离子液体概念提出至今在各领域的应用,其可以催化吡咯、3-甲基噻吩等单体合成导电高分子纳米微球,同时起到溶剂和模板的作用;还可以通过外加磁场调整产物的微观结构和形貌,从而得到不同的纳米结构;它也可以充当Lewis酸催化剂,催化傅克反应等一系列化学反应,并可以回收重复使用,而且回收有望通过磁场简单实现;与碳纳米管以共价键结合可以制备具有磁性的碳纳米管。除此之外,磁性离子液体在光控顺磁性超分子体系、吸收有机挥发物等领域的应用在近年也陆续有报道。 相似文献
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