AI Article Synopsis
- Since the beginning of the SARS-CoV-2 pandemic in 2020, there has been a significant increase in the use of sodium hypochlorite disinfectants, which effectively kill viruses by producing hypochlorous acid through hydrolysis.
- While sodium hypochlorite is effective for disinfection, its overuse can be harmful to both the environment and human health due to the risks associated with hypochlorous acid.
- To better understand hypochlorous acid's role in the environment and human health, researchers developed a new fluorescent probe that detects it rapidly and accurately, showing quick fluorescence in response to hypochlorous acid with a detection limit of 15.5 nM.
Article Abstract
Since the onset of the SARS-CoV-2 pandemic in early 2020, there has been a notable rise in sodium hypochlorite disinfectants. Sodium hypochlorite undergoes hydrolysis to generate hypochlorous acid for virus eradication. This chlorine-based disinfectant is widely utilized for public disinfection due to its effectiveness. Although sodium hypochlorite disinfection is convenient, its excessive and indiscriminate use can harm the water environment and pose a risk to human health. Hypochlorous acid, a reactive oxygen species, plays a crucial role in the troposphere, stratospheric chemistry, and oxidizing capacity. Additionally, hypochlorous acid is vital as a reactive oxygen species in biological systems, and its irregular metabolism and level is associated with several illnesses. Thus, it is crucial to identify hypochlorous acid to comprehend its environmental and biological functions precisely. Here, we constructed a new fluorescent probe, utilizing the twisted intramolecular charge transfer mechanism to quickly and accurately detect hypochlorous acid in environmental water and biosystems. The probe showed a notable increase in fluorescence when exposed to hypochlorous acid, demonstrating its excellent selectivity, fast response time (less than 10 seconds), a large Stokes shift (∼ 102 nm), and a low detection limit of 15.5 nM.
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| http://dx.doi.org/10.1016/j.ecoenv.2024.116836 | DOI Listing |
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