Single atom catalysts(SACs)have attracted considerable attention due to their unique structures and excellent catalytic performance,especially in the area of catalysis science and energy conversion and storage.In rece...Single atom catalysts(SACs)have attracted considerable attention due to their unique structures and excellent catalytic performance,especially in the area of catalysis science and energy conversion and storage.In recent years,SACs have emerged as a new type of sensing material for constructing electrochemical sensors(ECSs),presenting excellent sensitivity,selectivity,and stability.Herein,we review the recent advances of SACs in electrochemical sensing and discuss the status quo of current SAC-based ECSs.Specifically,the fundamentals of SAC-based ECSs are outlined,including the involved central metal atoms and various supports of SACs in this field,the detection mechanisms,and improving strategies of SAC-based ECSs.Moreover,the important applications of SAC-based ECSs are listed and classified,covering the detection of reactive oxygen and nitrogen species,environmental pollutants,disease biomarkers,and pharmaceuticals.Last,based on abundant reported cases,the current conundrums of SAC-based ECSs are summarized,and the prediction of their future developing trends is also put forward.展开更多
锂硫电池的实际应用仍受制于一些挑战,包括氧化还原动力学缓慢和由此引发的穿梭效应等.为解决这些问题,我们巧妙合成了一种由FeS_(2)和分等级多孔碳结构(PCF)组成的隔膜修饰层.这种新颖的结构能同时实现对多硫化锂的物理阻挡与化学电催...锂硫电池的实际应用仍受制于一些挑战,包括氧化还原动力学缓慢和由此引发的穿梭效应等.为解决这些问题,我们巧妙合成了一种由FeS_(2)和分等级多孔碳结构(PCF)组成的隔膜修饰层.这种新颖的结构能同时实现对多硫化锂的物理阻挡与化学电催化效应.多硫化锂扩散实验证实PCF修饰的隔膜能够阻挡多硫化锂的渗透,而飞行时间二次离子质谱表明FeS_(2)能催化多硫化锂快速转化.因此,修饰后的锂硫电池表现出优异的倍率性能(5 C时比容量达764 mA h g^(-1))及显著的长循环稳定性(1 C时循环500次后比容量为698 mA h g^(-1)).值得注意的是,修饰后的锂硫电池最高面积容量为7.52 mA h cm^(-2),并且能够在较宽温域(-20至60°C)保持高循环稳定性.本研究为隔膜修饰层的高效应用提供了有价值的见解.展开更多
基金supported by the National Natural Science Foundation of China(Nos.22375005 and 21771003)the Natural Science Research Project of Anhui Province Education Department(Nos.2022AH050323 and 2023AH051116)+1 种基金the Major industrial innovation plan of Anhui Province(No.AHZDCYCX-LSDT2023-04)the University Synergy Innovation Program of Anhui Province(No.GXXT-2022-006).
文摘Single atom catalysts(SACs)have attracted considerable attention due to their unique structures and excellent catalytic performance,especially in the area of catalysis science and energy conversion and storage.In recent years,SACs have emerged as a new type of sensing material for constructing electrochemical sensors(ECSs),presenting excellent sensitivity,selectivity,and stability.Herein,we review the recent advances of SACs in electrochemical sensing and discuss the status quo of current SAC-based ECSs.Specifically,the fundamentals of SAC-based ECSs are outlined,including the involved central metal atoms and various supports of SACs in this field,the detection mechanisms,and improving strategies of SAC-based ECSs.Moreover,the important applications of SAC-based ECSs are listed and classified,covering the detection of reactive oxygen and nitrogen species,environmental pollutants,disease biomarkers,and pharmaceuticals.Last,based on abundant reported cases,the current conundrums of SAC-based ECSs are summarized,and the prediction of their future developing trends is also put forward.
基金financially supported by the National Natural Science Foundation of China (22005003)the Natural Science Research Project of Anhui Province Education Department (2022AH030046 and 2022AH050323)+2 种基金the Young Scholars of the Introduction and Education of Talents in Anhui Provincethe Top Young Talents of Anhui University of Technologythe Scientific Research Foundation of Anhui University of Technology for Talent Introduction。
文摘锂硫电池的实际应用仍受制于一些挑战,包括氧化还原动力学缓慢和由此引发的穿梭效应等.为解决这些问题,我们巧妙合成了一种由FeS_(2)和分等级多孔碳结构(PCF)组成的隔膜修饰层.这种新颖的结构能同时实现对多硫化锂的物理阻挡与化学电催化效应.多硫化锂扩散实验证实PCF修饰的隔膜能够阻挡多硫化锂的渗透,而飞行时间二次离子质谱表明FeS_(2)能催化多硫化锂快速转化.因此,修饰后的锂硫电池表现出优异的倍率性能(5 C时比容量达764 mA h g^(-1))及显著的长循环稳定性(1 C时循环500次后比容量为698 mA h g^(-1)).值得注意的是,修饰后的锂硫电池最高面积容量为7.52 mA h cm^(-2),并且能够在较宽温域(-20至60°C)保持高循环稳定性.本研究为隔膜修饰层的高效应用提供了有价值的见解.
