Tetrakis(4-pyridylphenyl)ethylene-based Zinc Metal–Organic Framework with Aggregation-Induced Chemiluminescence Emission on a Paper Platform for Formaldehyde Detection in Breath

Biopsy, including tissue and liquid biopsy, offers comprehensive and realtime physiological and pathological information for disease detection, diagnosis, and monitoring. Fluorescent probes are frequently selected to obtain adequate information on pathological processes in a rapid and minimally invasive manner based on their advantages for biopsy. However, conventional fluorescent probes have been found to show aggregationcaused quenching (ACQ) properties, impeding greater progresses in this area. Since the discovery of aggregation-induced emission luminogen (AIEgen) have promoted rapid advancements in molecular bionanomaterials owing to their unique properties, including high quantum yield (QY) and signal-to-noise ratio (SNR), etc. This review seeks to present the latest advances in AIEgen-based biofluorescent probes for biopsy in real or artificial samples, and also the key properties of these AIE probes. This review is divided into: (i) tissue biopsy based on smart AIEgens, (ii) blood sample biopsy based on smart AIEgens, (iii) urine sample biopsy based on smart AIEgens, (iv) saliva sample biopsy based on smart AIEgens, (v) biopsy of other liquid samples based on smart AIEgens, and (vi) perspectives and conclusion. This review could provide additional guidance to motivate interest and bolster more innovative ideas for further exploring the applications of various smart AIEgens in precision medicine.

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Tetrakis(4-pyridylphenyl)ethylene-based Zinc Metal–Organic Framework with Aggregation-Induced Chemiluminescence Emission on a Paper Platform for Formaldehyde Detection in Breath

Cited by 3 publications

References 54 publications

MOFs-, COFs- and MOGs-assisted chemiluminescence methods

MOFs-, COFs- and MOGs-assisted chemiluminescence methods

Advanced luminescence nanoprobes for microfluidic paper-based point-of-care assays: A review

Aggregation-Induced Emission Luminogen: Role in Biopsy for Precision Medicine

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