化工时刊
化工時刊
화공시간
CHEMICAL INDUSTRY TIMES
2014年
10期
1-5
,共5页
杜保安%曹雨虹%王晓薇%马刚%胡晓倩
杜保安%曹雨虹%王曉薇%馬剛%鬍曉倩
두보안%조우홍%왕효미%마강%호효천
CdS量子点%荧光探针%Cu2+%猝灭
CdS量子點%熒光探針%Cu2+%猝滅
CdS양자점%형광탐침%Cu2+%졸멸
CdS quantum dots%fluorescence probes%Cu2+%quenching
用巯基丙酸作为稳定剂,在水相中合成了CdS量子点。基于Cu2+对CdS量子点有显著的荧光猝灭作用,建立了检测水相中微量Cu2+的新方法。研究结果表明,在弱碱性的水溶液中,当Cu2+的浓度在1×10-5~3×10-4 mol·L-1之间时,量子点的荧光猝灭强度△F/F与Cu2+的浓度之间很好地符合Stern-Volmer线性方程,线性相关系数为0.9952。方法的检出限为5.85×10-6 mol·L-1,相对标准偏差为3.75%,加标回收率为95.5%~118.5%。讨论了量子点的荧光猝灭机理。在研究金属离子和一些化合物的干扰作用时,发现有的物质使量子点的荧光猝灭,有的物质却使量子点的荧光强度增强,发光强度对不同的物质就具有选择性。选择合适的掩蔽剂可以消除较强的离子干扰。
用巰基丙痠作為穩定劑,在水相中閤成瞭CdS量子點。基于Cu2+對CdS量子點有顯著的熒光猝滅作用,建立瞭檢測水相中微量Cu2+的新方法。研究結果錶明,在弱堿性的水溶液中,噹Cu2+的濃度在1×10-5~3×10-4 mol·L-1之間時,量子點的熒光猝滅彊度△F/F與Cu2+的濃度之間很好地符閤Stern-Volmer線性方程,線性相關繫數為0.9952。方法的檢齣限為5.85×10-6 mol·L-1,相對標準偏差為3.75%,加標迴收率為95.5%~118.5%。討論瞭量子點的熒光猝滅機理。在研究金屬離子和一些化閤物的榦擾作用時,髮現有的物質使量子點的熒光猝滅,有的物質卻使量子點的熒光彊度增彊,髮光彊度對不同的物質就具有選擇性。選擇閤適的掩蔽劑可以消除較彊的離子榦擾。
용구기병산작위은정제,재수상중합성료CdS양자점。기우Cu2+대CdS양자점유현저적형광졸멸작용,건립료검측수상중미량Cu2+적신방법。연구결과표명,재약감성적수용액중,당Cu2+적농도재1×10-5~3×10-4 mol·L-1지간시,양자점적형광졸멸강도△F/F여Cu2+적농도지간흔호지부합Stern-Volmer선성방정,선성상관계수위0.9952。방법적검출한위5.85×10-6 mol·L-1,상대표준편차위3.75%,가표회수솔위95.5%~118.5%。토론료양자점적형광졸멸궤리。재연구금속리자화일사화합물적간우작용시,발현유적물질사양자점적형광졸멸,유적물질각사양자점적형광강도증강,발광강도대불동적물질취구유선택성。선택합괄적엄폐제가이소제교강적리자간우。
In this paper, the CdS quantum dots were synthesized by using MPA as the stabilizer. Based on the quenching effect of the Cu2+ to the fluorescence of the CdS quantum dots, the analyzing method of the micro-quanti-ty Cu2+ in water was established. The result shows that the relationship between theΔF/F and the Cu2+ concentration was linearity according to the Stern-Volmer equation, while the Cu2+ concentrations were between the 1. 0 × 10 -5 and 3. 0 × 10 -4 mol·L-1 . The linear correlation coefficient was 0. 9952. The recovery of the method was between 95. 5% and 118. 5%, the RSD was 3. 75%, and the detection limit was 5. 85 × 10 -6 mol·L-1 . The quenching mecha-nism of the fluorescence was discussed. The interferences of some materials were investigated, the result showed that the fluorescence of the quantum dots were quenched by some materials but enhanced by others. The fluorescence in-tensity of the CdS quantum dots had different corresponding to the different metal ions. The proper masking agents could be used to eliminate the strong interference of some ions.