A potential naphthyl-thiazole-based organic dye and a ditopic chromogenic probe for CN<sup>−</sup> and Fe<sup>3+</sup> with molecular logic functions

Uahengo, Veikko; Hamukwaya, Eunike; Endjala, Paulina T.; Naimhwaka, Johannes

doi:10.1039/d0nj03806g

Cited by 7 publications

(3 citation statements)

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“…[56][57][58][59][60][61][62] In combination with intramolecular charge transfer (ICT) mechanism, the two (ESIPT and ICT) mechanisms have seen applications extended to optoelectronic materials, solar cells, ion detectors, chemosensors, and thin lm transistors. [63][64][65] The robustness of the two mechanisms (ESIPT and ICT) coupled in a single molecule have been investigated in organic molecules over the past years. Recently, there has been reports on comparative studies and their effects on ESIPT and ICT mechanisms.…”

Section: Introductionmentioning

confidence: 99%

An ESIPT-ICT steered naphthylthioic-based ionic probe with dual emissive channels exhibiting CHEF and CHEQ effects

2022

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An ESIPT-ICT steered naphthylthioic-based ionic probe with dual emissive channels exhibiting CHEF and CHEQ effects

2022

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“…Excessive concentrations of anions in environmental and biological systems are highly detrimental to physiological systems both on land and on water, posing health hazards and environmental problems (17,27,28). Thus, developing easy-to-use and cost-effective monitoring probes is highly paramount in many research establishments (29).…”

Section: Introductionmentioning

confidence: 99%

Chromogenic amide and CHEF-based emissive receptors for Cu 2+ & Co 2+ , as well as biological anions including the notorious CN - : The impact of a molecular chameleon, enticing early career beginners

Amputu

Naimhwaka

Uahengo

2022

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A rich-in-amide receptors, acrylamide-N’phenylhydrazine carbothioamide-based fluorescent probe (MA) was synthesized via a simple and one-step procedure of Schiff base condensation reaction. The structure was characterized via spectroscopic methods of 1H NMR, UV-Vis and fluorescence methods. In addition, the bench-top applications on the detection of cations and anions, in DMSO, were carried out visually and spectroscopically. As a result, MA displayed colorimetric activities once anions or cations were added, observable by naked eye detectable colour changes. The probe turned out to discriminate cations such as Cu2+, Co2+, Fe3+ and Fe2+ via colour changes, which was complemented by the changes in UV-Vis titration spectra for each individual titration. Moreover, the addition of anions (F-, AcO-, CN- and OH-) to MA had colorimetric impacts observable by naked eyes, and complemented by spectral changes upon UV-Vis analysis. The probe was fluorometrically responsive to the addition of cations (Co2+, Cu2+, Ni2+ and Fe2+) and anions (F-, AcO-, CN- and OH-), both in DMSO, which have all resulted in chelation-based fluorescence enhancement (CHEF), with Co2+ and AcO- complexes exhibiting high affinity of the host-guest species. Thus, MA proved to be a potential chromogenic-fluorogenic probe, which could be used in monitoring the presence of specific cations and anions, in aqueous soluble solvent of DMSO.

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“…Herein, we have designed a ruthenium bipyridyl dye sensitizer (N) based on a naphthyl-thiazole anchoring ligand [30], with good photon absorption characteristics and capable of colorimetrically detect biologically important anions, such as cyanide (CN − ), Fluoride (F − ), Acetate (AcO − ) and hydroxide (OH − ) in dimethyl sulfoxide (DMSO). Moreover, the fact that N contains a naphthyl-thiazole group (1) bearing a hydroxyl group, which has been investigated for both chemosensing and photovoltaic properties in our previous study [31]. Thus, it is logically expected for N to exhibit anion-binding capability, where the acidities of the OH protons are drastically enhanced upon the photoexcitation, and therefore an excitedstate intermolecular proton transfer (ESIPT) channel might be opened [32][33][34].…”

Section: Introductionmentioning

confidence: 99%

A Ruthenium Bipyridyl Molecular Dye Sensitizer and an Excited-State Intermolecular Proton Transfer-Active Colorimetric Probe for Anions, with High Affinity Towards CN− in DMSO

et al. 2021

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A ruthenium bipyridyl-dye sensitizer (N) based on the naphthyl-thiazole anchoring-ancillary ligand was synthesized and characterized using spectroscopic methods of UV-Vis, 1 H NMR, FTIR and fluorescence. The functional properties of N were investigated through its photoinduced and intramolecular based charge transfer mechanisms. Subsequently, N displayed interesting charge transfer-based properties (ESIPT) that are complementary to molecular photovoltaic and chemosensing properties. The properties were investigated and studied in dimethyl sulfoxide (DMSO), due to its polar nature and solubility of the dye. Dye sensitizer exhibitions were investigated through solvatochromism effect on the optoelectronic properties, while chemosensing abilities were inspected through colorimetric activities, upon molar addition of anions. Thus, it was established that a dual functional N is a potential dye sensitizer with optoelectronic properties displaying high molar extinction coefficients in acetone. In addition, it was found that N is a colorimetric and fluorometric probe selective and sensitive to biologically important anions of CN − , F − , OH − and AcO − through fluorescence enhancement, as a result of hydrogenbonding leading to deprotonation. The sensing probe, however, displayed more strongly association with CN − .

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A potential naphthyl-thiazole-based organic dye and a ditopic chromogenic probe for CN⁻ and Fe³⁺ with molecular logic functions

Abstract: Dye sensitizers are entities designed primarily to serve the function of harvesting light photons in the functional wavelength, which is centered on charge transfer mechanisms. A metal-free dye sensitizer (J)...

Cited by 7 publications

References 67 publications

An ESIPT-ICT steered naphthylthioic-based ionic probe with dual emissive channels exhibiting CHEF and CHEQ effects

An ESIPT-ICT steered naphthylthioic-based ionic probe with dual emissive channels exhibiting CHEF and CHEQ effects

Chromogenic amide and CHEF-based emissive receptors for Cu 2+ & Co 2+ , as well as biological anions including the notorious CN - : The impact of a molecular chameleon, enticing early career beginners

A Ruthenium Bipyridyl Molecular Dye Sensitizer and an Excited-State Intermolecular Proton Transfer-Active Colorimetric Probe for Anions, with High Affinity Towards CN− in DMSO

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A potential naphthyl-thiazole-based organic dye and a ditopic chromogenic probe for CN− and Fe3+ with molecular logic functions

Abstract: Dye sensitizers are entities designed primarily to serve the function of harvesting light photons in the functional wavelength, which is centered on charge transfer mechanisms. A metal-free dye sensitizer (J)...

Cited by 7 publications

References 67 publications

An ESIPT-ICT steered naphthylthioic-based ionic probe with dual emissive channels exhibiting CHEF and CHEQ effects

An ESIPT-ICT steered naphthylthioic-based ionic probe with dual emissive channels exhibiting CHEF and CHEQ effects

Chromogenic amide and CHEF-based emissive receptors for Cu 2+ &amp; Co 2+ , as well as biological anions including the notorious CN - : The impact of a molecular chameleon, enticing early career beginners

A Ruthenium Bipyridyl Molecular Dye Sensitizer and an Excited-State Intermolecular Proton Transfer-Active Colorimetric Probe for Anions, with High Affinity Towards CN− in DMSO

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A potential naphthyl-thiazole-based organic dye and a ditopic chromogenic probe for CN⁻ and Fe³⁺ with molecular logic functions

Chromogenic amide and CHEF-based emissive receptors for Cu 2+ & Co 2+ , as well as biological anions including the notorious CN - : The impact of a molecular chameleon, enticing early career beginners