Effect of solvents on photophysical properties and quenching of 2-{[3-(1H-benzimidazole-2-yl) phenyl] carbonoimidoyl}phenol

Effect of solvents on photophysical properties and quenching of 2-{[3-(1H-benzimidazole-2-yl) phenyl] carbonoimidoyl}phenol

The effect of solvents of varying polarity on the absorption and fluorescence emission of the Schiff base, 2‐{[3‐(1H‐benzimidazole‐2‐yl) phenyl]carbonoimidoyl}phenol, was studied using Lippert‐Mataga bulk polarity function, Reichardt's microscopic solvent polarity parameter and Kamlet's mu...

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Bibliographic Details
Published in:Luminescence (Chichester, England) Vol. 30; no. 5; pp. 611 - 618
Main Authors: Suman, G. R., Bubbly, S. G., Gudennavar, S. B., Thipperudrappa, J., Roopashree, B., Gayathri, V., Nanje Gowda, N. M.
Format: Journal Article
Language:English
Published: England Blackwell Publishing Ltd 01-08-2015
Wiley Subscription Services, Inc
Subjects:
1-Butanol - chemistry
Acidity
Aniline
Aniline Compounds - chemistry
Approximation
Basicity
Benzimidazoles
Benzimidazoles - chemistry
Butanol
Charge transfer
Dioxanes - chemistry
Dipole moments
Emission
Excitation
Fluorescence
fluorescence quenching
Imines
intramolecular charge transfer
Linear Models
Mathematical analysis
Mathematical models
Parameters
Phenols
Polarity
Polarizability
Properties
Quenching
Regression
Regression analysis
Schiff base
Schiff bases
Schiff Bases - chemistry
Solutes
Solvent effect
Solvents
Solvents - chemistry
Spectrometry, Fluorescence - methods
Schiff base
solvent effect
intramolecular charge transfer
fluorescence quenching
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Summary:The effect of solvents of varying polarity on the absorption and fluorescence emission of the Schiff base, 2‐{[3‐(1H‐benzimidazole‐2‐yl) phenyl]carbonoimidoyl}phenol, was studied using Lippert‐Mataga bulk polarity function, Reichardt's microscopic solvent polarity parameter and Kamlet's multiple linear regression approach. The spectral properties follow Reichardt's microscopic solvent polarity parameter better than Lippert‐Mataga bulk polarity parameter, indicating the presence of both general solute–solvent interactions and specific interactions. Catalan's multiple linear regression approach indicates the major role of solvent polarizability/dipolarity influence compared with solvent acidity or basicity. The solvatochromic effect was utilized to calculate the dipole moments of ground and excited states of the Schiff base using different methods. Bathochromic shift in the emission spectrum and the increase in dipole moment in the excited state signifies the intramolecular charge transfer character in the emitting singlet state. Fluorescence quenching by aniline was also studied in 1,4‐dioxane and n‐butanol, and the results were analyzed using sphere of action static quenching and finite sink approximation models. Copyright © 2014 John Wiley & Sons, Ltd.
Bibliography:ArticleID:BIO2794
istex:436A81AD835130EC0415E605FCEC729C12DF8090
ark:/67375/WNG-4C9TCP3T-3
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:1522-7235
1522-7243
DOI:10.1002/bio.2794