Electrochemiluminescent CdS Quantum Dots Biosensor for Cancer Mutation Detection at Different Positions on Linear DNA Analytes

Abstract: PCR-based techniques routinely employed for the detection of mutated linear DNA molecules, including circulating tumor DNA (ctDNA), require large nucleotide sections on both sides of the mutation for primer annealing. This means that DNA fragments with a mutation positioned closer to the extremities are unlikely to be detected. Thus, sensors capable of recognizing linear DNA with characteristic mutations closer to the ends would be advantageous over the state-of-the-art approaches. Here, an electrochemilumines… Show more

“…The process was found to be based on ECL-RET, in which quantifiable variations in electrochemiluminescence were caused by energy transfer between CdS quantum dots and Au nanoparticles, enabling accurate detection. 231 (3) Biomedical application. Semiconducting colloidal carbon quantum dots (CQDs), due to their superior photostability, high photoluminescence quantum yield (PLQY), and high absorption coefficient, have been extensively utilized in several medicinal applications.…”

“…The process was found to be based on ECL-RET, in which quantifiable variations in electrochemiluminescence were caused by energy transfer between CdS quantum dots and Au nanoparticles, enabling accurate detection. 231…”

Advancements in semiconductor quantum dots: expanding frontiers in optoelectronics, analytical sensing, biomedicine, and catalysis

“…The process was found to be based on ECL-RET, in which quantifiable variations in electrochemiluminescence were caused by energy transfer between CdS quantum dots and Au nanoparticles, enabling accurate detection. 231 (3) Biomedical application. Semiconducting colloidal carbon quantum dots (CQDs), due to their superior photostability, high photoluminescence quantum yield (PLQY), and high absorption coefficient, have been extensively utilized in several medicinal applications.…”

“…The process was found to be based on ECL-RET, in which quantifiable variations in electrochemiluminescence were caused by energy transfer between CdS quantum dots and Au nanoparticles, enabling accurate detection. 231…”

Advancements in semiconductor quantum dots: expanding frontiers in optoelectronics, analytical sensing, biomedicine, and catalysis

“…It relies on the redox processes of electrochemical reactions, where electrons or holes are transferred from the electrode to the luminophore in the reaction system at a specific potential, inducing the excited state luminophore to return to its ground state and release photons . As a significant optoelectronic conversion technology, ECL has found extensive applications in various fields such as clinical medicine, , environmental monitoring, , and food analysis , due to its exceptional sensitivity, minimal interference from background signals, and rapid response time . Nevertheless, the exploration of novel luminophores for ECL remains a crucial research focus within this field. − …”

Self-Assembly-Induced Enhancement of Cathodic Electrochemiluminescence of Copper Nanoclusters for a Split-Type Matrix Metalloproteinase 14 Sensing Platform

T790M mutation upconversion fluorescence biosensor via mild ATRP strategy and site-specific DNA cleavage of restriction endonuclease