KJCKorea
Journal Central

@article{ART003208686},
author={},
title={Fluorometric sensing probe using carbon quantum dots for selective detection of doxycycline antibiotic},
journal={Carbon Letters},
issn={1976-4251},
year={2025},
volume={35},
number={2},
pages={895-905}

TY - JOUR
AU -
TI - Fluorometric sensing probe using carbon quantum dots for selective detection of doxycycline antibiotic
JO - Carbon Letters
PY - 2025
VL - 35
IS - 2
PB - Korean Carbon Society
SP - 895
EP - 905
SN - 1976-4251
AB - Due to the sturdy photoluminescence and absorption, CQDs emerged as a suitable candidate for optical sensing probe. The present study deals with the synthesis of blue-fluorescent Carbon Quantum Dot (TAA-CQD) using tannic acid and glycine as novel precursors. The TAA-CQD were synthesised hydrothermally with the high production yield and QY to be 86.12 and 21%, respectively, and an average particle size of 1.9 nm. The TAA-CQD aqueous solution displays excitation-dependent fluorescence emission in the excited range from 420 to 650 nm. The CIE co-ordinates in a highly blue region at (0.14, 0.19) confirmed the synthesised TAA-CQD were blue in fluorescent. Fluorescence of TAA-CQD was stable under all pH range, resisted the high ionic strengths condition and stable over 8 months. Furthermore, the fluorescent TAA-CQD was capable in detecting a tetracycline-classed antibiotic Doxycycline (DXY) along with remarkable selectivity and sensitivity. The measures limit of detection (LOD) was very low 2.42 mM in comparison to other methods. Moreover, the applicability of the proposed work has been fruitfully employed on the pharmaceutical waste. Thus, our designed TAA-CQD based fluorescence sensing system hold great promise for the advanced sensing materials in the detection of DXY and we believe that our approach will be promising and viable in a clinical applications.
KW - Blue fluorescent carbon dot Doxycycline Detection limit Hydrothermal Real sample
DO -
UR -
ER -

. (2025). Fluorometric sensing probe using carbon quantum dots for selective detection of doxycycline antibiotic. Carbon Letters, 35(2), 895-905.

. 2025, "Fluorometric sensing probe using carbon quantum dots for selective detection of doxycycline antibiotic", Carbon Letters, vol.35, no.2 pp.895-905.

"Fluorometric sensing probe using carbon quantum dots for selective detection of doxycycline antibiotic" Carbon Letters 35.2 pp.895-905 (2025) : 895.

. Fluorometric sensing probe using carbon quantum dots for selective detection of doxycycline antibiotic. 2025; 35(2), 895-905.

. "Fluorometric sensing probe using carbon quantum dots for selective detection of doxycycline antibiotic" Carbon Letters 35, no.2 (2025) : 895-905.

. Fluorometric sensing probe using carbon quantum dots for selective detection of doxycycline antibiotic. Carbon Letters, 35(2), 895-905.

. Fluorometric sensing probe using carbon quantum dots for selective detection of doxycycline antibiotic. Carbon Letters. 2025; 35(2) 895-905.

. Fluorometric sensing probe using carbon quantum dots for selective detection of doxycycline antibiotic. 2025; 35(2), 895-905.

. "Fluorometric sensing probe using carbon quantum dots for selective detection of doxycycline antibiotic" Carbon Letters 35, no.2 (2025) : 895-905.