Benzthiazole-derived chromogenic, fluorogenic and ratiometric probes for detection of hydrazine in environmental samples and living cells

[Display omitted] •Benzthiazole-based chromogenic, ratiometric, fluorescent probes CD1 and CD2 for hydrazine were synthesized and characterized.•Removal of acetyl group of probes by hydrazine in organo-aqueous medium at physiological pH turned on ESIPT of the probes.•Switching on of ESIPT of the che...

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Published inJournal of photochemistry and photobiology. A, Chemistry. Vol. 334; pp. 1 - 12
Main Authors Mahapatra, Ajit Kumar, Karmakar, Parthasarathi, Manna, Srimanta, Maiti, Kalipada, Mandal, Debasish
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 01.02.2017
Elsevier BV
Subjects
Amines
Anions
Benzothiazole
Cations
Density
Density functional theory calculations
Environmental monitoring
Fluorescence
Fluorescence turn-on
Fluorescent indicators
Hydrazine
Inspection
Living cells
pH effects
Physiology
Probes
Protons
Test kit
Vero cells
Test kit
Hydrazine
Living cells
Density functional theory calculations
Fluorescence turn-on
Online AccessGet full text

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Abstract [Display omitted] •Benzthiazole-based chromogenic, ratiometric, fluorescent probes CD1 and CD2 for hydrazine were synthesized and characterized.•Removal of acetyl group of probes by hydrazine in organo-aqueous medium at physiological pH turned on ESIPT of the probes.•Switching on of ESIPT of the chemodosimetric probes CD1 and CD2 lead to remarkable photo-physical changes.•DFT and TDDFT calculations were performed to demonstrate the sensing mechanism and the electronic properties of probes.•Both the probes can detect hydrazine in solution as well as in vapor state and CD1 can detect hydrazine in live cell also. Benzothiazole-based chromogenic and ratiometric fluorescent chemodosimetric probes CD1 and CD2, were synthesized and characterized. The probes are designed in such a way that the excited state intramolecular proton transfer (ESIPT) of the benzothiazole moiety gets blocked. Upon treatment with hydrazine in organo-aqueous medium[DMSO: H2O; 2:1 (v/v)] at physiological pH, the aectyl protective group of probes CD1 and CD2 were removed readily in presence hydrazine and ESIPT of the probes were switched on, which resulted remarkable photo-physical changes. These two ESIPT–based ratiometric fluorescent probes were shown to be selective and sensitive for hydrazine among different cations, anions and amines studied in organo-aqueous medium[DMSO: H2O; 2:1 (v/v)] at physiological pH, by fluorescence, absorption, and visual emission color change. These key features allows the two probes to be employed for hydrazine detection by simple visual inspection. DFT and TDDFT calculations were performed in order to demonstrate the sensing mechanism and the electronic properties of probe and hydrazinolysis product. An easy-to-prepare test strips, obtained by dipping the TLC plates into the solution of CD1 and CD2, were able to detect hydrazine in practical samples. Moreover, the utility of the probes CD1 in showing the hydrazine recognition in live cells has also been demonstrated using Vero cells as monitored by fluorescence imaging.
AbstractList Benzothiazole-based chromogenic and ratiometric fluorescent chemodosimetric probes CD1 and CD2, were synthesized and characterized. The probes are designed in such a way that the excited state intramolecular proton transfer (ESIPT) of the benzothiazole moiety gets blocked. Upon treatment with hydrazine in organo-aqueous medium[DMSO: H2O; 2:1 (v/v)] at physiological pH, the aectyl protective group of probes CD1 and CD2 were removed readily in presence hydrazine and ESIPT of the probes were switched on, which resulted remarkable photo-physical changes. These two ESIPT-based ratiometric fluorescent probes were shown to be selective and sensitive for hydrazine among different cations, anions and amines studied in organo-aqueous medium[DMSO: H2O; 2:1 (v/v)] at physiological pH, by fluorescence, absorption, and visual emission color change. These key features allows the two probes to be employed for hydrazine detection by simple visual inspection. DFT and TDDFT calculations were performed in order to demonstrate the sensing mechanism and the electronic properties of probe and hydrazinolysis product. An easy-to-prepare test strips, obtained by dipping the TLC plates into the solution of CD1 and CD2, were able to detect hydrazine in practical samples. Moreover, the utility of the probes CD1 in showing the hydrazine recognition in live cells has also been demonstrated using Vero cells as monitored by fluorescence imaging.
[Display omitted] •Benzthiazole-based chromogenic, ratiometric, fluorescent probes CD1 and CD2 for hydrazine were synthesized and characterized.•Removal of acetyl group of probes by hydrazine in organo-aqueous medium at physiological pH turned on ESIPT of the probes.•Switching on of ESIPT of the chemodosimetric probes CD1 and CD2 lead to remarkable photo-physical changes.•DFT and TDDFT calculations were performed to demonstrate the sensing mechanism and the electronic properties of probes.•Both the probes can detect hydrazine in solution as well as in vapor state and CD1 can detect hydrazine in live cell also. Benzothiazole-based chromogenic and ratiometric fluorescent chemodosimetric probes CD1 and CD2, were synthesized and characterized. The probes are designed in such a way that the excited state intramolecular proton transfer (ESIPT) of the benzothiazole moiety gets blocked. Upon treatment with hydrazine in organo-aqueous medium[DMSO: H2O; 2:1 (v/v)] at physiological pH, the aectyl protective group of probes CD1 and CD2 were removed readily in presence hydrazine and ESIPT of the probes were switched on, which resulted remarkable photo-physical changes. These two ESIPT–based ratiometric fluorescent probes were shown to be selective and sensitive for hydrazine among different cations, anions and amines studied in organo-aqueous medium[DMSO: H2O; 2:1 (v/v)] at physiological pH, by fluorescence, absorption, and visual emission color change. These key features allows the two probes to be employed for hydrazine detection by simple visual inspection. DFT and TDDFT calculations were performed in order to demonstrate the sensing mechanism and the electronic properties of probe and hydrazinolysis product. An easy-to-prepare test strips, obtained by dipping the TLC plates into the solution of CD1 and CD2, were able to detect hydrazine in practical samples. Moreover, the utility of the probes CD1 in showing the hydrazine recognition in live cells has also been demonstrated using Vero cells as monitored by fluorescence imaging.
Author Mahapatra, Ajit Kumar
Maiti, Kalipada
Karmakar, Parthasarathi
Mandal, Debasish
Manna, Srimanta
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  organization: Department of Chemistry, Indian Institute of Engineering Science and Technology, Shibpur, Howrah-711103, West Bengal, India
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  surname: Mandal
  fullname: Mandal, Debasish
  organization: Institute of Chemistry, The Hebrew University of Jerusalem, 91904 Jerusalem, Israel
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Hydrazine
Living cells
Density functional theory calculations
Fluorescence turn-on
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Snippet [Display omitted] •Benzthiazole-based chromogenic, ratiometric, fluorescent probes CD1 and CD2 for hydrazine were synthesized and characterized.•Removal of...
Benzothiazole-based chromogenic and ratiometric fluorescent chemodosimetric probes CD1 and CD2, were synthesized and characterized. The probes are designed in...
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SubjectTerms Amines
Anions
Benzothiazole
Cations
Density
Density functional theory calculations
Environmental monitoring
Fluorescence
Fluorescence turn-on
Fluorescent indicators
Hydrazine
Inspection
Living cells
pH effects
Physiology
Probes
Protons
Test kit
Vero cells
Title Benzthiazole-derived chromogenic, fluorogenic and ratiometric probes for detection of hydrazine in environmental samples and living cells
URI https://dx.doi.org/10.1016/j.jphotochem.2016.10.032
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