Beitong Zhu scite author profile

Meat's freshness is closely related to food safety and human health and has received increasing attention nowadays. To onsite visually screen meat freshness in a fast and non-destructive manner, we rationally constructed a series of fluorescent probes (JDCN, JDNS, and JDPY) with distinct electron-withdrawing substitution groups based on julolidine-fused coumarin. These probes underwent an aza-Michael addition followed by an elimination reaction with cadaverine to generate a colorimetric and ratiometric fluorescence response, and their sensing performance was rationally enhanced by improving the electron-withdrawing strength of substitution groups. Particularly, JDCN with a dicyanovinyl group as the reaction site exhibited outstanding sensing performance including rapid response (∼60 s), high selectivity, and low detection limit (14 nM). Furthermore, JDCN was fabricated into test kits to detect cadaverine vapor with a high-contrast fluorescence change from red to green. Based on twocolor visualization of cadaverine vapor, on-site non-contact and non-destructive monitoring of meat freshness was successfully achieved. The good sensing performance rendered JDCN test kits a promising real-time fluorescence screening platform for rapid, non-destructive, and accurate evaluation of meat freshness.

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Molecular engineered optical probes for chemical warfare agents and their mimics: Advances, challenges and perspectives

Zhu

Sheng

Chen

et al. 2022

Coordination Chemistry Reviews

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A highly selective phenothiazine-based fluorescent chemosensor for phosgene

et al. 2020

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A colorimetric and fluorescence lighting-up probe for the determination of biogenic primary diamine during the spoilage of fish

et al. 2021

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Beitong Zhu

A molecular recognition platform for the simultaneous sensing of diverse chemical weapons

Real-Time Fluorescence Screening Platform for Meat Freshness

Molecular engineered optical probes for chemical warfare agents and their mimics: Advances, challenges and perspectives

A highly selective phenothiazine-based fluorescent chemosensor for phosgene

A colorimetric and fluorescence lighting-up probe for the determination of biogenic primary diamine during the spoilage of fish

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