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Highly sensitive colorimetric detection of NH3 based on Au@Ag@AgCl core-shell nanoparticles

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摘要 Abstract:As an important component of the atmosphere,ammonia(NH_(3))plays a very important role in maintaining the balance of environment.However,it is also one of the most toxic gases that can cause damage to the human respiratory system and mucous membranes even at low concentrations.As such,development of highly sensitive and selective NH_(3)sensors is of high significance for environmental monitoring and health maintenance.Herein,we have synthesized Au@Ag@Ag Cl core-shell nanoparticles(NPs)by oxidative etching and precipitating Au@Ag core-shell NPs using FeCl3 and further used them as optical probes for the colorimetric detection of NH_(3).The sensing mechanism is based on the fact that the etching of NH_(3)on AgCl and Ag shell leads to the variations of ingredients and core-to-shell ratio of the Au@Ag@AgCl NPs,thereby inducing noticeable spectral and color changes.By replacing the outmost layer of Ag with AgCl,not only is the stability of the sensor against oxygen significantly enhanced,but also is the sensitivity of the method improved.The method exhibits good linear relationship for the detection of NH_(3)from 0 to 5000 mmol/L with the limit of detection of 6.4 mmol/L.This method was successfully applied to the detection of simulated air polluted by NH_(3),indicating its practical applicability for environmental monitoring.This method shows great potential for on-site NH_(3)detection particularly in remote area,where a simple,fast,low-cost,and easy-to-handle method is highly desirable.
出处 《Chinese Chemical Letters》 SCIE CAS CSCD 2021年第9期2807-2811,共5页 中国化学快报(英文版)
基金 supported by the Graduate Student Innovation Project of China University of Petroleum(East China)in 2020(No.YCX2020031) the financial support by the National Natural Science Foundation of China(Nos.21876206,21505157) the Fundamental Research Funds for the Central Universities(China University of Petroleum(East China),Nos.18CX02037A,20CX05015A) the Youth Innovation and Technology project of Universities in Shandong Province(No.2020KJC007)。
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