Fluorescent Polymer Carbon Dots for the Sensitive–Selective Sensing of Fe3+ Metal Ions and Cellular Imaging

Poly­(ether amine) (PEA)-based fluorescent polymer carbon dots (FPCDs) have been synthesized via a simple Schiff base reaction between poly­(ether amine) (PEA) and formaldehyde followed by its hydrothermal treatment. The resulting water-soluble FPCDs are 2 nm in size and show excitation-dependent em...

Full description

Saved in:
Bibliographic Details
Published in:ACS applied nano materials 2022-09, Vol.5 (9), p.12699-12710
Main Authors: Dalal, Chumki, Garg, Anjali Kumari, Mathur, Manas, Sonkar, Sumit Kumar
Format: Article
Language:English
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Poly­(ether amine) (PEA)-based fluorescent polymer carbon dots (FPCDs) have been synthesized via a simple Schiff base reaction between poly­(ether amine) (PEA) and formaldehyde followed by its hydrothermal treatment. The resulting water-soluble FPCDs are 2 nm in size and show excitation-dependent emission properties. Blue-emissive FPCDs exhibit the maximum intensity of fluorescence at 440 nm under 360 nm excitation and show a high quantum yield of ∼18%. FPCDs are used for selective Fe3+ metal ion sensing in aqueous media through the fluorescence quenching of FPCDs with a limit of detection of ∼162 nM. Nontoxic FPCDs have been used for cancer cell imaging and also for intracellular Fe3+ metal ion sensing in cancer cells. FPCDs have been used for Fe3+ ion sensing in industrial effluents, and they serve as sensors even in the presence of other competing metal ions. To determine the real application potential of FPCDs as a sensor, FPCDs are used to establish the Fe3+ metal ion content in samples of spiked blood serum with remarkable specificity, sensitivity, and accuracy. Moreover, we proposed a possible sensing mechanism wherein Fe3+ metal ions interacted with the functional groups present on the surface of FPCDs, and fluorescence quenching occurred via a static quenching mechanism along with an inner filter effect (IFE).
ISSN:2574-0970
2574-0970
DOI:10.1021/acsanm.2c02544