A highly selective chemodosimeter for fast detection and intracellular imaging of Hg<sup>2+</sup>ions based on a dithiocarbamate–isothiocyanate conversion in aqueous ethanol

Pal, Suman Kalyan; Hatai, Joydev; Samanta, Mousumi; Shaurya, Alok; Bandyopadhyay, Subhajit

doi:10.1039/c3ob42108b

Cited by 30 publications

(19 citation statements)

References 72 publications

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“…in which a weakly emissive dithiocarbamate‐NDI ( Φ f 0.03) is treated with Hg 2+ to form isothiocyanate‐NDI 53 showing a modest fluorescence enhancement with a Φ f of 0.11 in H 2 O/ethanol (4:1, v/v) (Figure a,b). An application of this specificity to Hg 2+ is shown in vitro, when human epithelial carcinoma cells are treated with both mercury cations and the dithiocarbamate‐NDI, leading to a bright‐blue intracellular emission, producing a potential indicator for mercury poisoning inside the body . Recent developments using 5 have taken the concept further.…”

Section: Induced Transformationmentioning

confidence: 99%

“…An application of this specificity to Hg 2 + is shown in vitro, when human epithelial carcinomac ellsa re treated with both mercury cations and the dithiocarbamate-NDI, leading to ab right-blue intracellular emission, producing ap otential indicator for mercury poisoning inside the body. [52] Recent developments using 5 have taken the concept further. Upon the incorporation of Hg 2 + ,a tenfold increase in radiative quantum yield (from 0.03 to 0.32), is demonstrated throught he creation of emissive p-p stacked coordination polymer (l em,max 425 nm) in solution.…”

Section: Induced Transformationmentioning

confidence: 99%

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Harnessing Brightness in Naphthalene Diimides

Maniam

Higginbotham

Bell

et al. 2019

Chemistry A European J

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The development of brightly emissive compounds is of great research and commercial interest, with established and emerging applications across chemistry, biology, physics, medicine and engineering. Among the many types of molecules available, naphthalene diimides have been widely used for both fundamental photophysical studies and in practical applications that utilise fluorescence as an information readout. The monomeric naphthalene diimide is weakly fluorescent, however through various methods of core‐derivatisation, it can be developed to be highly fluorescent and further functionalised to add utility. In this review, we highlight recent advances made in naphthalene diimide chemistry that have led to development of molecules with improved optical properties, and the design strategies utilised to produce bright fluorescence emission as small molecules or in supramolecular architectures.

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Section: Induced Transformationmentioning

confidence: 99%

Section: Induced Transformationmentioning

confidence: 99%

Harnessing Brightness in Naphthalene Diimides

Maniam

Higginbotham

Bell

et al. 2019

Chemistry A European J

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“…Motivated by the promises of synthetic SDPs and the pressing need for developing an efficient strategy for synthesizing the same, we report here a highly efficient, support-free, and iterative strategy to yield multigram scale of a new class of monodispersed SDPs. The unique feature of this class of SDP is that its backbone harbors an important functional groupdithiocarbamate (DTC)which is reported as an excellent candidate for both material ( e.g., heavy metal sensors and vulcanizing accelerators in rubber industries) and biomedical applications ( e.g., antileishmanial, antiacute myelogenous leukaemia, antitrypanosomatids, and anticancer agents). To our knowledge, this is the first report on a DTC-based SDP.…”

Section: Introductionmentioning

confidence: 99%

Sequence-Defined Dithiocarbamate Oligomers via a Scalable, Support-free, Iterative Strategy

et al. 2020

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Precise control over the monomeric sequence on natural sequence-defined polymers (SDPs) leads to their structural diversity and functions. However, absolute control over the monomeric sequence on a synthetic polymer remains a challenging process. Herein, we describe a supportfree, protection−deprotection-free, cost-effective, and fast iterative strategy for multigram production of a new class of SDP with a unique functional group, dithiocarbamate, a potential group for material and biomedical applications. The strategy is based on a unique monomer, named as amine-hydroxyl monomer, and a three-component reaction between the monomer, CS 2 , and terminal chloro group of the growing chain. The fast strategy allows us to synthesize a 5mer sequence-defined oligomer in 6 h. For a proof of concept, a range of aliphatic and aromatic groups have been incorporated at different sequences in the sequence-defined oligomer. This SDP platform has further been advanced by two ways: (i) multiple approaches for postsynthetic modification of SDP and (ii) increasing the chain length in a single step.

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“… 3 − 5 Once inside the human body, Hg(II) tends to accumulate in vital organs and impairs human health even at low concentrations due to its strong affinity to thiols from enzymes and proteins. 6 − 9 For example, Hg(II) can cause the serious Minamata disease. 10 Therefore, it is significant to develop new strategies for efficiently monitoring Hg 2+ ions in aqueous media and biological systems.…”

Section: Introductionmentioning

confidence: 99%

New Pyridine-Bridged Ferrocene–Rhodamine Receptor for the Multifeature Detection of Hg²⁺ in Water and Living Cells

et al. 2020

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A challenge in the design of optical and redox-active receptors is how to combine a specific recognition center with an efficient responsive system to facilely achieve multifeature detection in biological and environmental analyses. Herein, a novel ferrocene–rhodamine receptor conjugated with a pyridine bridge was designed and synthesized. This receptor can sensitively sense Hg 2+ in aqueous media via chromogenic, fluorogenic, and electrochemical multisignal outputs with a low detection limit and fast response time. Moreover, it can be qualified as a fluorescent probe for effectively monitoring Hg 2+ in living cells. A plausible recognition mode was proposed and rationalized with theoretical calculations.

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A highly selective chemodosimeter for fast detection and intracellular imaging of Hg²⁺ions based on a dithiocarbamate–isothiocyanate conversion in aqueous ethanol

Cited by 30 publications

References 72 publications

Harnessing Brightness in Naphthalene Diimides

Harnessing Brightness in Naphthalene Diimides

Sequence-Defined Dithiocarbamate Oligomers via a Scalable, Support-free, Iterative Strategy

New Pyridine-Bridged Ferrocene–Rhodamine Receptor for the Multifeature Detection of Hg²⁺ in Water and Living Cells

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A highly selective chemodosimeter for fast detection and intracellular imaging of Hg2+ions based on a dithiocarbamate–isothiocyanate conversion in aqueous ethanol

Cited by 30 publications

References 72 publications

Harnessing Brightness in Naphthalene Diimides

Harnessing Brightness in Naphthalene Diimides

Sequence-Defined Dithiocarbamate Oligomers via a Scalable, Support-free, Iterative Strategy

New Pyridine-Bridged Ferrocene–Rhodamine Receptor for the Multifeature Detection of Hg2+ in Water and Living Cells

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Product

Resources

About

A highly selective chemodosimeter for fast detection and intracellular imaging of Hg²⁺ions based on a dithiocarbamate–isothiocyanate conversion in aqueous ethanol

New Pyridine-Bridged Ferrocene–Rhodamine Receptor for the Multifeature Detection of Hg²⁺ in Water and Living Cells