Quantum dots for electrochemiluminescence bioanalysis-A review

Electrochemiluminescence (ECL) bioanalysis has become increasingly important in various fields from bioanalysis to clinical diagnosis due to its outstanding merits, including low background signal, high sensitivity, and simple instrumentation. Quantum dots (QDs) are a significant theme in ECL bioanalysis since their excellent optical, electrochemical properties, and ease of functionalization endow them with versatile roles and new mechanisms of signal transduction in ECL. Herein, this review details recent advances of QDs-based ECL bioanalysis by using QDs as ECL emitters, coreactants, or ECL resonance energy transfer donors/acceptors, mainly focused on their optical and electrochemical properties and ECL reaction mechanism. In the end, we will discuss the current limitations and future developments in QDs ECL bioanalysis to address the requirement about selectivity, sensitivity, toxicity, and emerging applications. (c) 2021 Elsevier B.V. All rights reserved.

Automated summary

This review provides a detailed account of recent advances in QDs-based ECL bioanalysis, highlighting the versatility of QDs as ECL emitters, coreactants, or ECL resonance energy transfer donors/acceptors. The article also discusses the current limitations and future developments in QDs ECL bioanalysis to meet the requirements of selectivity, sensitivity, toxicity, and emerging applications.