Phase equilibrium and physical properties of biobased ionic liquid mixtures

Phase equilibrium and physical properties of biobased ionic liquid mixtures

Protic ionic liquid crystals (PILCs) obtained from natural sources are promising compounds due to their peculiar properties and sustainable appeal. However, obtaining PILCs with higher thermal and mechanical stabilities for product and process design is in demand and studies on such approaches using...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2018, Vol.20 (9), p.6469-6479
Hauptverfasser: Toledo Hijo, Ariel A C, Maximo, Guilherme J, Cunha, Rosiane L, Fonseca, Felipe H S, Cardoso, Lisandro P, Pereira, Jorge F B, Costa, Mariana C, Batista, Eduardo A C, Meirelles, Antonio J A
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Sprache:eng
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Binary mixtures
Fatty acids
Industrial applications
Ionic liquids
Ions
Liquid crystals
Phase equilibria
Physical properties
Rheological properties
Solid solutions
Thermodynamic equilibrium
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container_end_page 6479
container_issue 9
container_start_page 6469
container_title Physical chemistry chemical physics : PCCP
container_volume 20
creator Toledo Hijo, Ariel A C
Maximo, Guilherme J
Cunha, Rosiane L
Fonseca, Felipe H S
Cardoso, Lisandro P
Pereira, Jorge F B
Costa, Mariana C
Batista, Eduardo A C
Meirelles, Antonio J A
description Protic ionic liquid crystals (PILCs) obtained from natural sources are promising compounds due to their peculiar properties and sustainable appeal. However, obtaining PILCs with higher thermal and mechanical stabilities for product and process design is in demand and studies on such approaches using this new IL generation are still scarce. In this context, this work discloses an alternative way for tuning the physicochemical properties of ILCs by mixing PILs. New binary mixtures of PILs derived from fatty acids and 2-hydroxy ethylamines have been synthesized here and investigated through the characterization of the solid-solid-[liquid crystal]-liquid thermodynamic equilibrium and their rheological and critical micellar concentration profiles. The mixtures presented a marked nonideal melting profile with the formation of solid solutions. This work revealed an improvement of the PILCs' properties based on a significant increase in the ILC temperature domain and the obtainment of more stable mesophases at high temperatures when compared to pure PILs. In addition, mixtures of PILs also showed significant changes in their non-Newtonian and viscosity profile up to 100 s , as well as mechanical stability over a wide temperature range. The enhancement of the physicochemical properties of PILs here disclosed by such an approach leads to more new possibilities of their industrial application at high temperatures.
doi_str_mv 10.1039/c7cp06841g
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source Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects Binary mixtures
Fatty acids
Industrial applications
Ionic liquids
Ions
Liquid crystals
Phase equilibria
Physical properties
Rheological properties
Solid solutions
Thermodynamic equilibrium
title Phase equilibrium and physical properties of biobased ionic liquid mixtures
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