Issue 31, 2023

Highly selective optical sensor N/S-doped carbon quantum dots (CQDs) for the assessment of human chorionic gonadotropin β-hCG in the serum of breast and prostate cancer patients

Abstract

A low-cost, accurate, and highly selective method was used for the assessment of the human chorionic gonadotropin β-hCG in the serum of breast and prostate cancer patients. This method is based on enhancing the intensity of luminescence displayed by the optical sensor N/S-doped carbon dots (CQDs) upon adding different concentrations of β-hCG. The luminescent optical sensor was synthesized and characterized through absorption and emission and is tailored to present blue luminescence at λem = 345 nm and λex = 288 nm at pH 7.8 in DMSO. The enhancement of the luminescence intensity of the N/S-doped CQDs, especially, the characteristic band at λem = 345 nm, is typically used for determining β-hCG in different serum samples. The dynamic range is 1.35–22.95 mU mL−1, and the limit of detection (LOD) and quantitation limit of detection (LOQ) are 0.235 and 0.670 mU mL−1, respectively. This method was practical, simple, and relatively free from interference effect. It was successfully applied to measure PCT in the samples of human serum, and from this method, we can assess some biomarkers of cancer-related diseases in human body.

Graphical abstract: Highly selective optical sensor N/S-doped carbon quantum dots (CQDs) for the assessment of human chorionic gonadotropin β-hCG in the serum of breast and prostate cancer patients

Associated articles

Article information

Article type
Paper
Submitted
09 Mar 2023
Accepted
04 Jul 2023
First published
17 Jul 2023
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2023,13, 21318-21326

Highly selective optical sensor N/S-doped carbon quantum dots (CQDs) for the assessment of human chorionic gonadotropin β-hCG in the serum of breast and prostate cancer patients

Y. M. AlZahrani, S. Alharthi, H. A. AlGhamdi, A. O. Youssef, S. S. Ahmed, E. H. Mohamed, S. A. Mahmoud and M. S. Attia, RSC Adv., 2023, 13, 21318 DOI: 10.1039/D3RA01570J

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