Celso R. Nicoleti scite author profile

4-(4-Nitrobenzylideneamine)phenol was used in two strategies allowing the highly selective detection of F -and CN -. Firstly, the compound in acetonitrile acts as a chromogenic chemosensor based on the idea that more basic anions cause its deprotonation (colorless solution), generating a colored solution containing phenolate. The discrimination of CN -over F -was obtained by adding 1.4% water to acetonitrile: water preferentially solvates F -, leaving the CN -free to deprotonate the compound. Another strategy involved an assay comprised of the competition between phenolate dye and the analyte for calix [4]pyrrole in acetonitrile, a receptor highly selective for F -. Phenolate and calix[4]pyrrole form a hydrogen-bonded complex, which changes the color of the medium. On the addition of various anions, only F -was able to restore the original color corresponding to phenolate in solution due to the fact that the anion dislodges phenolate from the complexation site.

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Synthesis and Solvatochromism of Substituted 4-(Nitrostyryl)phenolate Dyes

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Nandi

Nicoleti

et al. 2015

J. Org. Chem.

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4-(Nitrostyryl)phenols 2a-9a were synthesized, and by deprotonation in solution, the solvatochromic phenolates 2b-9b were formed. Their absorption bands in the vis region of the spectra are due to π-π* electronic transitions, of an intramolecular charge-transfer nature, from the electron-donor phenolate toward the electron-acceptor nitroarene moiety. The frontier molecular orbitals and natural bond orbitals were analyzed for the protonated and deprotonated forms. The calculated geometries are in agreement with X-ray structures observed for 4a, 6a, and 8a. The HOMO-LUMO energy gaps suggest that, after their deprotonation, an increase in the electron delocalization is observed. In the protonated compounds, the HOMO is primarily localized over the phenol ring and the C═C bridge. After deprotonation, it extends toward the entire molecule, including the NO2 groups. The solvatochromism of each dye was studied in 28 organic solvents, and it was found that all compounds exhibit a reversal in solvatochromism, which is interpreted in terms of the ability of the media to stabilize their electronic ground and excited states to different extents. The Catalán multiparameter equation is used in the interpretation of the solvatochromic data, revealing that the most important contribution to the solute/solvent interaction is the hydrogen-bond donor acidity of the solvent.

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Optical Chemosensor for the Detection of Cyanide in Water Based On Ethyl(hydroxyethyl)cellulose Functionalized with Brooker’s Merocyanine

et al. 2014

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Ethyl(hydroxyethyl)cellulose was functionalized with Brooker's merocyanine. The modified polymer was easily transformed in a film, which could be used as a highly selective chromogenic and fluorogenic chemosensor for the detection of cyanide in water, with detection limits of 1.9 × 10(-5) and 1.0 × 10(-7) mol L(-1). The film was successfully applied to the detection of cyanide in cassava (Manihot esculenta Crantz) roots, which are a well-known source of endogenous biological cyanide.

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Electrohalogenation of organic compounds

et al. 2021

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Optical devices for the detection of cyanide in water based on ethyl(hydroxyethyl)cellulose functionalized with perichromic dyes

Nandi

Nicoleti

Marini

et al. 2017

Carbohydrate Polymers

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Films of three polymers, based on ethyl(hydroxyethyl)cellulose functionalized with protonated perichromic dyes, were used for anion sensing. The polymer functionalized with protonated Brooker's merocyanine acts as a chromogenic/fluorogenic system for the selective detection of cyanide in water. An increase of >28 times was verified for the fluorescence lifetime of the sensing units in the polymer in comparison with protonated Brooker's merocyanine in water. Moreover, an increase in the pK values was verified for the sensing units in the polymers. Data suggest that the hydrocarbonic polymeric chains provide an adequate microenvironment to protect the sensing unit from bulk water. The other polymer, functionalized with an iminophenol, also showed high selectivity for cyanide (detection limit=9.36×10molL and quantification limit=3.12×10molL). The polymer functionalized with azophenol units is unable for the detection of cyanide, due to the low pK value verified for its chromogenic units.

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Chromogenic Chemodosimeter for Highly Selective Detection of Cyanide in Water and Blood Plasma Based on Si–O Cleavage in the Micellar System

2014

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Structure–behavior study of a family of “hybrid cyanine” dyes which exhibit inverted solvatochromism

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Melo

Schramm

et al. 2016

Phys. Chem. Chem. Phys.

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The inverted solvatochromism of twenty dyes containing an electron-donor phenolate conjugated with an electron-withdrawing nitro-substituted phenyl ring was analyzed in terms of the dye structure and substituents. Structural factors that increased the difference between the electrophilicities of the donor and acceptor moieties, or the donor-acceptor strength of the phenolate dyes, also increased the sensitivity of the dyes to solvent-polarity changes and red-shifted their solvatochromic absorption bands.

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Phase-dependent photoluminescence of non-symmetric 2,1,3-benzothiadiazole liquid crystals

et al. 2019

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Celso R. Nicoleti

Anionic chromogenic chemosensors highly selective for fluoride or cyanide based on 4-(4-Nitrobenzylideneamine)phenol

Synthesis and Solvatochromism of Substituted 4-(Nitrostyryl)phenolate Dyes

Optical Chemosensor for the Detection of Cyanide in Water Based On Ethyl(hydroxyethyl)cellulose Functionalized with Brooker’s Merocyanine

Electrohalogenation of organic compounds

Optical devices for the detection of cyanide in water based on ethyl(hydroxyethyl)cellulose functionalized with perichromic dyes

Chromogenic Chemodosimeter for Highly Selective Detection of Cyanide in Water and Blood Plasma Based on Si–O Cleavage in the Micellar System

Structure–behavior study of a family of “hybrid cyanine” dyes which exhibit inverted solvatochromism

Phase-dependent photoluminescence of non-symmetric 2,1,3-benzothiadiazole liquid crystals

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