Diarylethene-Based Ionic Liquids: Synthesis and Photo-Driven Solution Properties

Diarylethene-Based Ionic Liquids: Synthesis and Photo-Driven Solution Properties

In this work, the design and synthesis of a series of photochromic gemini diarylethene-based ionic liquids (GDILs) with different cationic motifs is reported. Several synthetic pathways were optimized for the formation of cationic GDILs with chloride as the counterion. The different cationic motifs...

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Bibliographic Details
Published in:International journal of molecular sciences Vol. 24; no. 4; p. 3533
Main Authors: Soromenho, Mário R C, Afonso, Carlos A M, Esperança, José M S S
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 09-02-2023
MDPI
Subjects:
Alkylation
Amines
Aqueous solutions
Aromatic amines
Cations
Chemical properties
Conductivity
diarylethene
Electric properties
Imidazole
Ionic liquids
Ions
Low concentrations
photo-driven properties
photochromic salts
Photochromism
Physicochemical properties
Solubility
Solvents
Surface active agents
Ultraviolet radiation
photo-driven properties
ionic liquids
photochromic salts
diarylethene
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Summary:In this work, the design and synthesis of a series of photochromic gemini diarylethene-based ionic liquids (GDILs) with different cationic motifs is reported. Several synthetic pathways were optimized for the formation of cationic GDILs with chloride as the counterion. The different cationic motifs were achieved through the -alkylation of the photochromic organic core unit with different tertiary amines, including different aromatic amines such as imidazole derivatives and pyridinium, and other non-aromatic amines. These novel salts present surprising water solubility with unexplored photochromic features that broaden their known applications. The covalent attachment of the different side groups dictates their water solubility and differences upon photocyclization. The physicochemical properties of GDILs in aqueous and in imidazolium-based ionic liquid (IL) solutions were investigated. Upon irradiation with ultraviolet (UV) light, we have observed changes in the physico-chemical properties of distinct solutions containing these GDILs, at very low concentrations. More specifically, in aqueous solution, the overall conductivity increased with the time of UV photoirradiation. In contrast, in IL solution, these photoinducible changes are dependent on the type of ionic liquid used. These compounds can improve non-ionic and ionic liquids' solutions since we can change their properties, such as conductivity, viscosity or ionicity, only by UV photoirradiation. The electronic and conformational changes associated with these innovative stimuli GDILs may open new opportunities for their use as photoswitchable materials.
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ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms24043533