A Cu2+-Selective Probe Based on Phenanthro-Imidazole Derivative

Cheng, Dandan; Liu, Xingliang; Yang, Hongzhi; Zhang, Tian; Han, Aijun; Zang, Ling

doi:10.3390/s17010035

Cited by 27 publications

(9 citation statements)

References 34 publications

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“…The performance of sensor A (FWA‐DTI complex) is comparable with other reported fluorescence‐based probes for Cu 2+ (Table ). Unlike many probes reported in the literature, the approach introduced herein produces 100% water‐soluble Cu 2+ sensors. The main advantage of the approach described in this work however, is its simplicity; it enables sensor assembly via single‐step mixing of inexpensive commercial materials, which circumvents the multistep synthesis and purification involved in the production of current Cu 2+ sensors.…”

Section: Resultsmentioning

confidence: 99%

Cu²⁺ sensing via noncovalent complexes of fluorescent whitening agents and imidazole‐based polymeric dye transfer inhibitors

Fernandes

Ugwu

2020

J of Applied Polymer Sci

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The fluorescence image taken by Fernandes and Ugwu shows conversion of a Cu 2+ insensitive fluorophore (bottom row) into a sensitive "turn-off" probe for the metal ion (top row) via complexation with a commercial imidazole polymer. This work introduces a synthesis and purification-free method for production of bright, 100% water-soluble fluorescent probes for Cu 2+ .Volume 137, Number 17 was mailed the week of February 3, 2020.ARTICLES 48596 High-toughness, environment-friendly solid epoxy resins: Preparation, mechanical performance, curing behavior, and thermal properties

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Section: Resultsmentioning

confidence: 99%

Cu²⁺ sensing via noncovalent complexes of fluorescent whitening agents and imidazole‐based polymeric dye transfer inhibitors

Fernandes

Ugwu

2020

J of Applied Polymer Sci

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“…However, there are plenty of shortcomings in these methods because they are usually complicated, time-consuming, and costly. In recent years, increased attention has been given to the development of colorimetric and fluorimetric methods, which exhibit advantages of low cost, simplicity, convenience, and high sensitivity [9,10,11]. The colorimetric method allows simple naked-eye detection without the use of any expensive equipment, and the fluorimetric method has the ability of real-time analysis and biological imaging [12].…”

Section: Introductionmentioning

confidence: 99%

A Reversible Colorimetric and Fluorescence “Turn-Off” Chemosensor for Detection of Cu2+ and Its Application in Living Cell Imaging

Chen

Kong

et al. 2019

Molecules

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Dual-function chemosensors that combine the capability of colorimetric and fluorimetric detection of Cu2+ are still relatively rare. Herein, we report that a 3-hydroxyflavone derivative (E)-2-(4-(dimethylamino)styryl)-3-hydroxy-4H-chromen-4-one (4), which is a red-emitting fluorophore, could serve as a reversible colorimetric and fluorescence “turn-off” chemosensor for the detection of Cu2+. Upon addition of Cu2+ to 4 in neutral aqueous solution, a dramatic color change from yellow to purple-red was clearly observed, and its fluorescence was markedly quenched, which was attributed to the complexation between the chemosensor and Cu2+. Conditions of the sensing process had been optimized, and the sensing studies were performed in a solution of ethanol/phosphate buffer saline (v/v = 3:7, pH = 7.0). The sensing system exhibited high selectivity towards Cu2+. The limit of naked eye detection of Cu2+ was determined at 8 × 10−6 mol/L, whereas the fluorescence titration experiment showed a detection limit at 5.7 × 10−7 mol/L. The complexation between 4 and Cu2+ was reversible, and the binding constant was found to be 3.2 × 104 M−1. Moreover, bioimaging experiments showed that 4 could penetrate the cell membrane and respond to the intracellular changes of Cu2+ within living cells, which indicated its potential for biological applications.

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“…The fluorescence emission spectrum is affected with an energy-transfer mechanism for quenching. The quenching interaction appears as the copper(II)–macrocycle complex is formed near the Rhodamine B [38,39,40].…”

Section: Resultsmentioning

confidence: 99%

A New pH-Dependent Macrocyclic Rhodamine B-Based Fluorescent Probe for Copper Detection in White Wine

Doumani

Bou-Maroun

Maalouly

et al. 2019

Sensors

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For efficiently measuring copper (II) ions in the acidic media of white wine, a new chemosensor based on rhodamine B coupled to a tetraazamacrocyclic ring (13aneN4CH2NH2) was designed and synthesized by a one-pot reaction using ethanol as a green solvent. The obtained chemosensor was characterized via NMR, UV and fluorescent spectra. It was marked with no color emission under neutral pH conditions, with a pink color emission under acidic conditions, and a magenta color emission under acidic conditions where copper (II) ions were present. The sensitivity towards copper (II) ions was tested and verified over Ca2+, Ag+, Zn2+, Mg2+, Co2+, Ni2+, Fe2+, Pb2+, Cd2+, Fe3+, and Mn2+, with a detection limit of 4.38 × 10−8 M in the fluorescence spectrum.

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A Cu2+-Selective Probe Based on Phenanthro-Imidazole Derivative

Cited by 27 publications

References 34 publications

Cu²⁺ sensing via noncovalent complexes of fluorescent whitening agents and imidazole‐based polymeric dye transfer inhibitors

Cu²⁺ sensing via noncovalent complexes of fluorescent whitening agents and imidazole‐based polymeric dye transfer inhibitors

A Reversible Colorimetric and Fluorescence “Turn-Off” Chemosensor for Detection of Cu2+ and Its Application in Living Cell Imaging

A New pH-Dependent Macrocyclic Rhodamine B-Based Fluorescent Probe for Copper Detection in White Wine

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A Cu2+-Selective Probe Based on Phenanthro-Imidazole Derivative

Cited by 27 publications

References 34 publications

Cu2+ sensing via noncovalent complexes of fluorescent whitening agents and imidazole‐based polymeric dye transfer inhibitors

Cu2+ sensing via noncovalent complexes of fluorescent whitening agents and imidazole‐based polymeric dye transfer inhibitors

A Reversible Colorimetric and Fluorescence “Turn-Off” Chemosensor for Detection of Cu2+ and Its Application in Living Cell Imaging

A New pH-Dependent Macrocyclic Rhodamine B-Based Fluorescent Probe for Copper Detection in White Wine

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Cu²⁺ sensing via noncovalent complexes of fluorescent whitening agents and imidazole‐based polymeric dye transfer inhibitors

Cu²⁺ sensing via noncovalent complexes of fluorescent whitening agents and imidazole‐based polymeric dye transfer inhibitors