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Enhanced Chemiluminescence under the Nanoconfinement of Covalent–Organic Frameworks and Its Application in Sensitive Detection of Cancer Biomarkers

Aihua Lyu, Yisha Wang, Hua Cui

2023Analytical Chemistry50 citationsDOI

Abstract

Chemiluminescence (CL) with intensive emission has been pursued for decades. It is still challenging to find a new mechanism to enhance CL. In this work, confinement-enhanced CL was developed for the first time by the coembedding of N-(aminobutyl)-N-(ethylisoluminol) (ABEI) and Co 2+ into gold nanoparticle-modified covalent–organic frameworks (COFs). For the consideration of improving the hydrophilicity of COFs and facilitating subsequent biological modification, gold nanoparticles were first reduced on the COF surface (Au-COF) in situ without other reducing reagents. By virtue of the abundant imine bond and π backbones, ABEI and Co 2+ were embedded in Au-COF synergistically through π–π stacking and coordination. The confinement of ABEI and Co 2+ into Au-COF brought an over 20-fold enhancement of CL intensity compared to that of adding them to a liquid phase, which benefitted from the three aspects of the confinement effect, including the molecular enrichment effect, the physical constraint effect, and the molecular preorganization effect. As proof of concept, a lipid–protein dual-recognition sandwich strategy based on this CL-functionalized COF was developed for the detection of breast cancer cell line-derived extracellular vesicles (EVs) with four orders of magnitude improvement in the detection limit compared to ELISA. The successful distinction of human epidermal growth factor receptor 2 (HER2)-positive patients from HER2-negative patients indicated the great application potential of the proposed bioassay in HER2-positive breast cancer diagnosis. This work proposed a novel enhancement mechanism for CL based on crystalline porous materials, which provides a new perspective for the development of CL-functionalized materials for biosensors and bioassays.

Topics & Concepts

ChemistryCovalent bondImineCovalent organic frameworkStackingDetection limitCombinatorial chemistryNanoparticleNanotechnologyChemiluminescenceChromatographyOrganic chemistryCatalysisMaterials scienceMetal-Organic Frameworks: Synthesis and ApplicationsNanoplatforms for cancer theranosticsLuminescence and Fluorescent Materials
Enhanced Chemiluminescence under the Nanoconfinement of Covalent–Organic Frameworks and Its Application in Sensitive Detection of Cancer Biomarkers | Litcius