As a strong oxidizer,hypochlorite(Cl O^(-))are widely employed as bleaching agents and disinfectants.Determination of ClO^(-)is required to ensure bactericidal effects and avoid hazards caused by excessive residual ch...As a strong oxidizer,hypochlorite(Cl O^(-))are widely employed as bleaching agents and disinfectants.Determination of ClO^(-)is required to ensure bactericidal effects and avoid hazards caused by excessive residual chlorine.Herein,the derivative bicyclic 2-pyridone,namely DHIP-Py,was prepared successfully to establish a new ClO^(-)-quantitative method.The probe exhibits excellent Cl O^(-)selectivity over other ROS and anions/cations,high sensitivity(LOD=1.32μmol/L),fast response(<5 s),and wide-p H tolerance(pH4~10).Benefit from its good water solubility,DHIP-Py is well suited for water sample analysis and has been successfully applied to detect Cl O^(-)in real-world food and environmental samples,including tap water,bottled water and river water.The detection results were essentially identical to that of obtained from traditional DPD method.Moreover,visual detection of Cl O^(-)via filter paper-based solid sensor and imaging of ClO^(-)in Escherichia coli were also achieved by DHIP-Py.These satisfactory results demonstrate that this bicyclic 2-pyridone-based hypochlorite probe is a promising free chlorine chemosensor with great potential for analytical applications.展开更多
基金financially supported by the National Natural Science Foundation of China(No.21877082)the International Science and Technology Innovation Cooperation Project of Sichuan Province(No.2021YFH0132)+1 种基金the Sichuan Science and Technology Program(No.2021YFG0291)the Undergraduate Scientific and Technological Innovation Project(Nos.2021127,2021130),Xihua University。
文摘As a strong oxidizer,hypochlorite(Cl O^(-))are widely employed as bleaching agents and disinfectants.Determination of ClO^(-)is required to ensure bactericidal effects and avoid hazards caused by excessive residual chlorine.Herein,the derivative bicyclic 2-pyridone,namely DHIP-Py,was prepared successfully to establish a new ClO^(-)-quantitative method.The probe exhibits excellent Cl O^(-)selectivity over other ROS and anions/cations,high sensitivity(LOD=1.32μmol/L),fast response(<5 s),and wide-p H tolerance(pH4~10).Benefit from its good water solubility,DHIP-Py is well suited for water sample analysis and has been successfully applied to detect Cl O^(-)in real-world food and environmental samples,including tap water,bottled water and river water.The detection results were essentially identical to that of obtained from traditional DPD method.Moreover,visual detection of Cl O^(-)via filter paper-based solid sensor and imaging of ClO^(-)in Escherichia coli were also achieved by DHIP-Py.These satisfactory results demonstrate that this bicyclic 2-pyridone-based hypochlorite probe is a promising free chlorine chemosensor with great potential for analytical applications.
