摘要
该文基于具有单分子水平高灵敏度和指纹图谱高分辨率的表面增强拉曼光谱(Surface enhanced Raman spectroscopy,SERS)技术,以2-氯乙基乙基硫醚(2-CEES)作为芥子气模拟剂,50 nm金纳米溶胶为SERS基底,系统开展了芥子气模拟剂的快速分析检测方法研究。研究结果表明,该方法对2-CEES的最低检出质量浓度为10μg/L,且在大型拉曼和便携拉曼仪器上均获得了稳定重复的结果,有望用于环境水体中芥子气的现场快速定性分析检测。
As one of highly toxic and volatile chemicals,mustard gas has been widely used as a kind of chemical weapon in local wars and terrorist attacks.Realizing the rapid and accurate qualitative identification of mustard gas is the first step to prevent casualties from wars and terrorist attacks.The lab facilities based standard methods accompanied with tedious and time-consuming operation are hardly satisfied the demand of emergence.Therefore,it is of great military significance to develop and establish a highly sensitive,accurate,simple and rapid detection technique towards on-site detection of mustard gas.Taking the near single-molecule level sensitivity and fingerprint resolution of surface enhanced Raman spectroscopy(SERS)herein,the feasibility of SERS for on-site and quick detection of trace mustard gas was systematically explored,with 2-chloroethyl ethyl sulfide(2-CEES)as simulant and 50 nm gold nanoparticles colloid as SERS substrate,respectively.It was figured out that:(1)The SERS spectrum of trace 2-CEES showed obvious difference compared with the normal Raman spectrum of 2-CEES,as a result of the hydrolysis of 2-CEES and the accompanied formation of sulfonium;(2)Accordingly,the two characteristic Raman peaks located at 610 and 1050 cm-1 of sulfonium could be used for the qualitative analysis of trace 2-CEES by SERS.Meanwhile,the lowest detectable concentration of 2-CEES was 10μg/L.Furthermore,the reproducibility and stability were confirmed on both lab based bench top Raman instrument and portable one.The observation demonstrates that the SERS based strategy is very promising for the on-site and rapid qualitative analysis of trace mustard gas in environmental waters.
作者
刘涛
顾家镭
刘国坤
田中群
LIU Tao;GU Jia-lei;LIU Guo-kun;TIAN Zhong-qun(College of Chemistry and Chemical Engineering,Xiamen University,Xiamen 361005,China;College of the Environment and Ecology,Xiamen University,Xiamen 361102,China)
出处
《分析测试学报》
CAS
CSCD
北大核心
2021年第4期605-611,共7页
Journal of Instrumental Analysis
基金
国家重点研发计划(2018YFC1602606)
厦门市科技计划(3502Z20183002)。