分析试验室
分析試驗室
분석시험실
ANALYTICAL LABORATORY
2009年
8期
72-74
,共3页
王霞%张莉莉%刁春鹏%赵汝松
王霞%張莉莉%刁春鵬%趙汝鬆
왕하%장리리%조춘붕%조여송
竹炭%固相萃取%三氯生%环境水样
竹炭%固相萃取%三氯生%環境水樣
죽탄%고상췌취%삼록생%배경수양
Bamboo charcoal%Solid-phase extraction%Triclosan%Environmental water samples
建立了一种由竹炭作为固相萃取高效吸附剂富集环境水样中痕量三氯生的新方法. 研究并优化了几个影响富集效率的参数. 在优化条件下, 三氯生的检测限为0.08 μg/L, 在1~100 μg/L 范围内有良好的线性关系, 相对标准偏差为2.9% (n=7). 方法可应用于实际废水样品的分析.
建立瞭一種由竹炭作為固相萃取高效吸附劑富集環境水樣中痕量三氯生的新方法. 研究併優化瞭幾箇影響富集效率的參數. 在優化條件下, 三氯生的檢測限為0.08 μg/L, 在1~100 μg/L 範圍內有良好的線性關繫, 相對標準偏差為2.9% (n=7). 方法可應用于實際廢水樣品的分析.
건립료일충유죽탄작위고상췌취고효흡부제부집배경수양중흔량삼록생적신방법. 연구병우화료궤개영향부집효솔적삼수. 재우화조건하, 삼록생적검측한위0.08 μg/L, 재1~100 μg/L 범위내유량호적선성관계, 상대표준편차위2.9% (n=7). 방법가응용우실제폐수양품적분석.
In this article, a new method based on using bamboo charcoal as a solid-phase extraction adsorbent for the enrichment and determination of triclosan has been developed. Several related factors that may influence the enrichment efficiency were investigated and optimized in detail. Under the optimum conditions, the limit of detection was 0.08 μg/L. There was good linearity (R2=0.9969) over the range 1~100 μg/L and good reproducibility with relative standard deviation of 2.9% (n=7). The proposed method has been applied to the analysis of real wastewater samples and satisfactory results were obtained.
