Enhanced Gas Separation through Nanoconfined Ionic Liquid in Laminated MoS2 Membrane

Two-dimensional (2D) materials-based membranes show great potential for gas separation. Herein an ionic liquid, 1-butyl-3-methylimidazolium tetrafluoroborate ([BMIM][BF₄]), was confined in the 2D channels of MoS₂-laminated membranes via an infiltration process. Compared with the corresponding bulk [BMIM][BF₄], nanoconfined [BMIM][BF₄] shows an obvious incremental increase in freezing point and a shift of vibration bands. The resulting MoS₂-supported ionic liquid membrane (MoS₂ SILM) exhibits excellent CO₂ separation performance with high CO₂ permeance (47.88 GPU) and superb selectivity for CO₂/N₂ (131.42), CO₂/CH₄ (43.52), and CO₂/H₂ (14.95), which is much better than that of neat [BMIM][BF₄] and [BMIM][BF₄]-based membranes. The outstanding performance of MoS₂ SILMs is attributed to the nanoconfined [BMIM][BF₄], which enables fast transport of CO₂. Long-term operation also reveals the durability and stability of the prepared MoS₂ SILMs. The method of confining ILs in the 2D nanochannels of 2D materials may pave a new way for CO₂ capture and separation.

A Bibliometric Analysis of Research on Supported Ionic Liquid Membranes during the 1995-2015 Period: Study of the Main Applications and Trending Topics

A bibliometric analysis based on Scopus database was performed to identify the global research trends related to Supported Ionic Liquid Membranes (SILMs) during the time period from 1995 to 2015. This work tries to improve the understanding of the most relevant research topics and applications. The results from the analysis reveal that only after 2005 the research efforts focused on SILMs became significant, since the references found before that year are scarce. The most important research works on the four main application groups for SILMs defined in this work (carbon dioxide separation, other gas phase separations, pervaporation and liquid phase separations) were summarized in this paper. Carbon dioxide separation appeared as the application that has received by far the most attention according to the research trends during the analysed period. Comments about other significant applications that are gaining attention, such as the employment of SILMs in analytical tasks or their consideration for the production of fuel cells, have been included.

Highly permeable ionic liquid 1-butyl-3-methylimidazoliumtetrafluoroborate (BMIMBF4)/CuO composite membrane for CO2separation

An ionic liquid (IL) 1-butyl-3-methylimidazoliumtetrafluoroborate (BMIMBF₄)/CuO composite was prepared for CO₂transport membranes.