化学分析计量
化學分析計量
화학분석계량
CHEMICAL ANALYSIS AND METERAGE
2015年
2期
22-25
,共4页
曾庆坤%孙智勇%付玉彬%郑纪勇
曾慶坤%孫智勇%付玉彬%鄭紀勇
증경곤%손지용%부옥빈%정기용
紫外光谱法%防污剂%释放率
紫外光譜法%防汙劑%釋放率
자외광보법%방오제%석방솔
UV-spectrophotometer%antifouling agent%release rate
建立新型防污剂N-辛基-2-羟基苯甲酰胺释放率测试方法。防污剂用丙酮溶解,通过紫外光谱法建立N-辛基-2-羟基苯甲酰胺的吸光度–浓度标准曲线。将含有防污剂的涂层置于水中,使其释放防污剂,定期获取溶液,利用冷冻干燥除水,然后用丙酮溶解释出的防污剂,进行紫外光谱测试。利用标准曲线法测定防污剂释放量,计算得到释放率。结果表明,在330 nm波长下,防污剂浓度与吸光度线性关系良好,相关系数r2=0.9991。方法的检出限为5μg/mL,测定结果的相对标准偏差为0.4%(n=5),加标回收率为97%~105%,样品在4 h内稳定。该方法测试稳定性较好,定量准确,操作简便,为防污剂检测提供了可靠的评价方法。
建立新型防汙劑N-辛基-2-羥基苯甲酰胺釋放率測試方法。防汙劑用丙酮溶解,通過紫外光譜法建立N-辛基-2-羥基苯甲酰胺的吸光度–濃度標準麯線。將含有防汙劑的塗層置于水中,使其釋放防汙劑,定期穫取溶液,利用冷凍榦燥除水,然後用丙酮溶解釋齣的防汙劑,進行紫外光譜測試。利用標準麯線法測定防汙劑釋放量,計算得到釋放率。結果錶明,在330 nm波長下,防汙劑濃度與吸光度線性關繫良好,相關繫數r2=0.9991。方法的檢齣限為5μg/mL,測定結果的相對標準偏差為0.4%(n=5),加標迴收率為97%~105%,樣品在4 h內穩定。該方法測試穩定性較好,定量準確,操作簡便,為防汙劑檢測提供瞭可靠的評價方法。
건립신형방오제N-신기-2-간기분갑선알석방솔측시방법。방오제용병동용해,통과자외광보법건립N-신기-2-간기분갑선알적흡광도–농도표준곡선。장함유방오제적도층치우수중,사기석방방오제,정기획취용액,이용냉동간조제수,연후용병동용해석출적방오제,진행자외광보측시。이용표준곡선법측정방오제석방량,계산득도석방솔。결과표명,재330 nm파장하,방오제농도여흡광도선성관계량호,상관계수r2=0.9991。방법적검출한위5μg/mL,측정결과적상대표준편차위0.4%(n=5),가표회수솔위97%~105%,양품재4 h내은정。해방법측시은정성교호,정량준학,조작간편,위방오제검측제공료가고적평개방법。
The method for evaluating the release rate of antifouling agent 2-hydroxy-N-octylbenzamide (HOBA) was established. The UV absorbance standard curve of HOBA in acetone was obtained by ultraviolet spectrophotometer. The coatings containing HOBA were immersed in water for a time, the leaching liquor was concentrated periodically by lyophilization. The released HOBA was dissolved in acetone, and characterized by UV spectrum. Lastly the release rate was calculated by the standard curve of HOBA. The results showed that the absorbance and concertration of HOBA had good relationship with the correlation coefficient ofr2=0.999 1 at the wavelength of 330 nm. The detection limit was 5μg/mL, the recovery of standard addition was 97%–105%, the relative standard deviation of determination results was 0.4%(n=5). The method had good stability, accurate quantification, and easy operation. It supply a reliable evaluation method for testing the release of novel antifouling agent.
