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Title

A Highly Water-Stable meta-Carborane-Based Copper Metal–Organic Framework for Efficient High-Temperature Butanol Separation

AuthorsGan, Lei; Chidambaram, Arunraj; Fonquernie, Pol G.; Light, Mark E.; Choquesillo Lazarte, Duane; Huang, Hongliang; Solano, Eduardo; Fraile, Julio ; Viñas, Clara ; Teixidor, Francesc ; Navarro, Jorge A. R.; Stylianou, Kyriakos C. ; Giner Planas, José
KeywordsMetal-organic frameworks
Hydrophobicity
Carborane
Butanol recovery
Water stability
Issue Date27-Apr-2020
PublisherAmerican Chemical Society
CitationJournal of the American Chemical Society: 10.1021/jacs.0c01008 (2020)
AbstractBiofuels are considered sustainable and renewable alternatives to conventional fossil fuels. Biobutanol has recently emerged as an attractive option compared to bioethanol and biodiesel, but a significant challenge in its production lies in the separation stage. The current industrial process for the production of biobutanol includes the ABE (acetone–butanol–ethanol) fermentation process from biomass; the resulting fermentation broth has a butanol concentration of no more than 2 wt% (the rest is essentially water). Therefore, the development of a cost-effective process for separation of butanol from dilute aqueous solutions is highly desirable. The use of porous materials for the adsorptive separation of ABE mixtures is considered a highly promising route, as these materials can potentially have high affinities for alcohols and low affinities for water. To date, zeolites have been tested toward this separation, but their hydrophilic nature makes them highly incompetent for this application. The use of metal–organic frameworks (MOFs) is an apparent solution; however, their low hydrolytic stabilities hinder their implementation in this application. So far, a few nanoporous zeolitic imidazolate frameworks (ZIFs) have shown excellent potential for butanol separation due to their good hydrolytic and thermal stabilities. Herein, we present a novel, porous, and hydrophobic MOF based on copper ions and carborane–carboxylate ligands, mCB-MOF-1, for butanol recovery. mCB-MOF-1 exhibits excellent stability when immersed in organic solvents, water at 90 °C for at least two months, and acidic and basic aqueous solutions. We found that, like ZIF-8, mCB-MOF-1 is non-porous to water (type II isotherm), but it has higher affinity for ethanol, butanol, and acetone compared to ZIF-8, as suggested by the shape of the vapor isotherms at the crucial low-pressure region. This is reflected in the separation of a realistic ABE mixture in which mCB-MOF-1 recovers butanol more efficiently compared to ZIF-8 at 333 K.
Publisher version (URL)http://dx.doi.org/10.1021/jacs.0c01008
URIhttp://hdl.handle.net/10261/210491
DOI10.1021/jacs.0c01008
ISSN0002-7863
Appears in Collections:(IACT) Artículos
(ICMAB) Artículos
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