A pyrene-based ratiometric probe for nanomolar level detection of glyphosate in food and environmental samples and its application for live-cell imaging

Dey, Nilanjan

doi:10.1039/d2nj00448h

Cited by 14 publications

(9 citation statements)

References 48 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This is probably due to the stacking nature of the polyaromatic pyrene moiety. 9 The formation of aggregates of 1 , owing to π-stacking and hydrogen bonding interactions, has already been reported by Bhattacharya et al Here also, we independently probed the self-assembly process by various spectroscopic studies and DLS experiments (Fig. S1–S3, ESI†).…”

Section: Resultssupporting

confidence: 55%

Dye-surfactant co-assembly as the chromogenic indicator for nanomolar level detection of Cu(i) ions via a color-changing response

Mondal

Karar²,

Dey

2023

J. Mater. Chem. B

Self Cite

View full text Add to dashboard Cite

show abstract

Section: Resultssupporting

confidence: 55%

Dye-surfactant co-assembly as the chromogenic indicator for nanomolar level detection of Cu(i) ions via a color-changing response

Mondal

Karar²,

Dey

2023

J. Mater. Chem. B

Self Cite

View full text Add to dashboard Cite

show abstract

“…33−35 Pyrene has been chosen as the fluorophore of interest due to notable characteristics, including large photostability, long fluorescence decay time, and a propensity to dimerize and self-associate (formation of excimers). 36,37 However, the possible photoinduced electron transfer from the pyrenylic nitrogen (PyCH 2 -N) to the excited pyrenyl (Py*) chromophore is expected to lead to a quenching of emission since the deactivation of the excited state will proceed through a radiationless process. 38 However, owing to three primary nitrogen centers, bpa-based fluorescence probes have often been employed in constructing several sensors for transition metal ions and pH.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

“…The molecule under consideration here is a bifunctional PET sensor, (1-pyrenyl)methyl-bis-[(2-pyridyl)methyl]amine ( Pybpa ), composed of two distinct modules, bispicolyl as a binding site and pyrene as the signaling moiety. The compound was synthesized in a facile manner by coupling pyrenylmethyl chloride with the metal ion binding bis-[(2-pyridyl)methyl]amine ( bpa ) unit. − Pyrene has been chosen as the fluorophore of interest due to notable characteristics, including large photostability, long fluorescence decay time, and a propensity to dimerize and self-associate (formation of excimers). , However, the possible photoinduced electron transfer from the pyrenylic nitrogen (PyCH 2 - N ) to the excited pyrenyl (Py*) chromophore is expected to lead to a quenching of emission since the deactivation of the excited state will proceed through a radiationless process . However, owing to three primary nitrogen centers, bpa -based fluorescence probes have often been employed in constructing several sensors for transition metal ions and pH. , Such recovery of fluorescence signal via metal ion/ H + coordination is often termed chelation-enhanced fluorescence (CHEF).…”

Section: Resultsmentioning

confidence: 99%

Improved Analytical Performance of an Amphiphilic Probe upon Protein Encapsulation: Spectroscopic Investigation along with Computational Rationalization

Paul

Mondal

Dey

2023

ACS Appl. Bio Mater.

Self Cite

View full text Add to dashboard Cite

An easily synthesizable pyrene-based amphiphilic probe (Pybpa) has been developed, which exhibited no responses with metal ions in the pure aqueous medium despite possessing a metal ion-chelating bispicolyl unit. We believe that spontaneous aggregation of Pybpa in aqueous medium makes the ion binding unit not accessible to the metal ions. However, the sensitivity and selectivity of Pybpa toward Zn2+ ions drastically improve in the presence of serum albumin protein, HSA. The differences in the microenvironment inside the protein cavity, in terms of local polarity, and conformational rigidity might be attributing factors for that. The mechanistic investigations also suggest that there might be the involvement of polar amino acid residues that take part in coordination with Zn2+ ions. Pybpa shows no detectable spectroscopic changes with Zn2+ ions in aqueous medium in the absence of HSA. However, it can effectively recognize Zn2+ ions in the protein-bound form. Moreover, the photophysical behavior of Pybpa and its zinc complex have been investigated with DFT and docking studies. Noteworthy, such an unusual sensing aspect of Zn2+ exclusively in the protein-bound state and particularly in aqueous medium is truly rare and innovative.

show abstract

“…53 To prevent such grave concerns, it has become compulsory to monitor and control the use of pesticides. In this respect, nanomaterials have greatly been utilized in the selective and sensitive detection of pesticides, 54,55 and it is essential to mention the maximum residue limit (MRL) of some pesticides in different categories of foods and nutrients. The Agency for Toxic Substances and Disease Registry under the United States Department of Health and Human Services has guidelines for the maximum permissible concentrations of methyl parathion in different foods and different age groups like 1 μg•mL −1 in rice, 0.3 μg•mL −1 for short-term exposure of children in drinking water, and 0.002 μg•mL −1 for lifetime exposure of adults.…”

Section: Introductionmentioning

confidence: 99%

Exploring Various Photochemical Processes in Optical Sensing of Pesticides by Luminescent Nanomaterials: A Concise Discussion on Challenges and Recent Advancements

Paul,

Daga,

Dey

2023

ACS Omega

Self Cite

View full text Add to dashboard Cite

Food safety is a burning global issue in this present era. The prevalence of harmful food additives and contaminants in everyday food is a significant cause for concern as they can adversely affect human health. More particularly, among the different food contaminants, the use of excessive pesticides in agricultural products is severely hazardous. So, the optical detection of residual pesticides is an effective strategy to counter the hazardous effect and ensure food safety. In this perspective, nanomaterials have played a leading role in defending the open threat against food safety instigated by the reckless use of pesticides. Now, nanomaterial-based optical detection of pesticides has reached full pace and needs an inclusive discussion. This Review covers the advancement of photoprocess-based optical detection of pesticides categorically using nanomaterials. Here, we have thoroughly dissected the photoprocesses (aggregation and aggregation-induced emission (AIE), charge transfer and intramolecular charge transfer (ICT), electron transfer and photoinduced electron transfer (PET), fluorescence resonance energy transfer (FRET), hydrogen bonding, and inner filter effect) and categorically demarcated their significant role in the optical detection of pesticides by luminescent nanomaterials over the last few years.

show abstract

A pyrene-based ratiometric probe for nanomolar level detection of glyphosate in food and environmental samples and its application for live-cell imaging

Abstract: A reversible chromogenic probe based on pyrene-linked bispicolyl amphiphile has been utilized for ratiometric, nanomolar level (LOD: 1.3 nM) detection of glyphosate in Brij-58 micelle medium. The probe shows a...

Cited by 14 publications

References 48 publications

Dye-surfactant co-assembly as the chromogenic indicator for nanomolar level detection of Cu(i) ions via a color-changing response

Dye-surfactant co-assembly as the chromogenic indicator for nanomolar level detection of Cu(i) ions via a color-changing response

Improved Analytical Performance of an Amphiphilic Probe upon Protein Encapsulation: Spectroscopic Investigation along with Computational Rationalization

Exploring Various Photochemical Processes in Optical Sensing of Pesticides by Luminescent Nanomaterials: A Concise Discussion on Challenges and Recent Advancements

Contact Info

Product

Resources

About