Rational Design of Covalent Organic Frameworks for Enhanced Reticular Electrochemiluminescence and Biosensing Applications
Bing Sun, Lin Cui

TL;DR
This review discusses how covalent organic frameworks can be designed to improve electrochemiluminescence for biosensing and analytical applications.
Contribution
The paper introduces rational design strategies for COFs to enhance ECL performance through molecular-level structural engineering.
Findings
COFs offer tunable porosity and π-conjugated structures that improve ECL emission and electron transfer.
Strategies like donor–acceptor conjugation and post-synthetic modification enhance ECL efficiency.
COFs serve as both emitters and scaffolds for signal amplification in biosensing applications.
Abstract
Electrochemiluminescence (ECL) has evolved into a powerful analytical technique due to its ultra-high sensitivity, low background noise, and precise electrochemical control. The development of efficient ECL emitters is central to advancing this technology for practical applications. Covalent organic frameworks (COFs) have recently emerged as promising candidates for constructing high-performance ECL systems. The tunable porosity, ordered π-conjugated structures, and versatile modular functionalities of COFs provide fast massive transport, effective electron transfer, rapid interfacial electrochemical reaction, and enhanced ECL emission performance. This review provides a comprehensive overview of the rational design strategies and structural engineering for COF-based ECL materials at the molecular level. Linkage chemistry, monomer selection (luminophores and π-conjugated non-ECL…
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Taxonomy
TopicsAdvanced biosensing and bioanalysis techniques · CO2 Reduction Techniques and Catalysts · Covalent Organic Framework Applications
