Tuning anion binding properties of Bis(indolyl)methane Receptors: Effect of substitutions on optical responses

[Display omitted] •Synthesis of oxidized bisindolyl probes with various terminal functional groups.•Polarity as well as pH-dependent chromogenic response.•Distinguishable colorimetric responses for F- and H2PO4- ions in polar aprotic solvents.•Different mechanism of interactions for F- and H2PO4- io...

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Published in:Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy Molecular and biomolecular spectroscopy, 2023-02, Vol.287, p.121979, Article 121979
Main Authors: Chettri, Bimal, Jha, Satadru, Dey, Nilanjan
Format: Article
Language:English
Subjects:
Anion sensing
Bis(indolyl)methanes
Charge transfer
Charge-assisted hydrogen bonding
Deprotonation
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Summary:[Display omitted] •Synthesis of oxidized bisindolyl probes with various terminal functional groups.•Polarity as well as pH-dependent chromogenic response.•Distinguishable colorimetric responses for F- and H2PO4- ions in polar aprotic solvents.•Different mechanism of interactions for F- and H2PO4- ions.•Substituent-dependent modulation in F- sensing mechanism. Chromogenic probes based onoxidizedbis(indolyl)methanes have been synthesized with varying substituents (R = -Me [1], -OMe [2], –OH, [3]) on the central aryl ring. In addition to electronic influence, the involvement of substituents in ion–dipole and charge-assisted hydrogen bonding interactions significantly alters the solvatochromic response and pH-sensitive behavior. In polar aprotic solvents, like CH3CN, a concentration-dependent stepwise color change was observed with F- ions. In the case of2, a reversible hydrogen bonding interaction between the deprotonated probe and HF2- dimer might be responsible for that, while step-wise deprotonation caused by F- ions could be the probable reason with3. Since the formation of HF2- is energetically unfavorable in a polar protic solvent, the response of 2 with F- ions appears to be very different in EtOH medium. Interestingly, no such alteration in anion sensing behavior was noticed with3going from an aprotic to a protic solvent.
ISSN:1386-1425
DOI:10.1016/j.saa.2022.121979