茶叶科学
茶葉科學
다협과학
2014年
4期
324-330
,共7页
胡琳玲%刘遵莹%刘秋玲%丰金玉%秦昱%肖文军
鬍琳玲%劉遵瑩%劉鞦玲%豐金玉%秦昱%肖文軍
호림령%류준형%류추령%봉금옥%진욱%초문군
黑茶%多环芳烃%高效液相色谱%线性关系%加标回收
黑茶%多環芳烴%高效液相色譜%線性關繫%加標迴收
흑다%다배방경%고효액상색보%선성관계%가표회수
dark tea%PAHs%HPLC%the linear relationship%recovery
利用高效液相色谱法建立了同时检测黑茶中16种多环芳烃化合物的方法。茶叶经丙酮和二氯甲烷超声提取、硅胶柱层析、正己烷和二氯甲烷混合洗脱。采用 C18色谱柱,以甲醇和超纯水作流动相梯度洗脱,流速0.6 mL·min-1、柱温30℃、紫外检测波长274 nm,16种多环芳烃分离效果显著,相关系数均≥0.996,最低检出限为0.1~1.0μg·L-1,线性范围为1.0~200.00μg·L-1,样品加标回收率为81.9%~116.5%,相对标准偏差值均≤2%。该方法具有快速、灵敏、准确、成本低的特点,同时也降低了对实验仪器的要求,可用于同时检测分析黑茶中16种多环芳烃化合物。
利用高效液相色譜法建立瞭同時檢測黑茶中16種多環芳烴化閤物的方法。茶葉經丙酮和二氯甲烷超聲提取、硅膠柱層析、正己烷和二氯甲烷混閤洗脫。採用 C18色譜柱,以甲醇和超純水作流動相梯度洗脫,流速0.6 mL·min-1、柱溫30℃、紫外檢測波長274 nm,16種多環芳烴分離效果顯著,相關繫數均≥0.996,最低檢齣限為0.1~1.0μg·L-1,線性範圍為1.0~200.00μg·L-1,樣品加標迴收率為81.9%~116.5%,相對標準偏差值均≤2%。該方法具有快速、靈敏、準確、成本低的特點,同時也降低瞭對實驗儀器的要求,可用于同時檢測分析黑茶中16種多環芳烴化閤物。
이용고효액상색보법건립료동시검측흑다중16충다배방경화합물적방법。다협경병동화이록갑완초성제취、규효주층석、정기완화이록갑완혼합세탈。채용 C18색보주,이갑순화초순수작류동상제도세탈,류속0.6 mL·min-1、주온30℃、자외검측파장274 nm,16충다배방경분리효과현저,상관계수균≥0.996,최저검출한위0.1~1.0μg·L-1,선성범위위1.0~200.00μg·L-1,양품가표회수솔위81.9%~116.5%,상대표준편차치균≤2%。해방법구유쾌속、령민、준학、성본저적특점,동시야강저료대실험의기적요구,가용우동시검측분석흑다중16충다배방경화합물。
A high performance liquid chromatography method that can rapidly detect 16 polycyclic aromatic hydrocarbons in dark tea was established. PAHs were ultrasonic extracted by acetone and methylene dichloride from tea, and purified by silica gel column and eluted with n-hexane. The results showed that the method was satisfactory when the C18 column(4.6 mm×250 mm, 5μm) was used for HPLC, methyl alcohol and ultrapure water was used for mobile phase, the flow rate was set at 0.6 mL·min-1, the column temperature was set at 30℃, the UV detection wavelength was set at 274 nm, 16 polycyclic aromatic hydrocarbons can be well separated, the correlation coefficient of 16 PAHs was more than 0.996, detection limit was 0.1-1.0μg·L-1, the detection linearity range was 1.0-200.00μg·L-1, the recovery of sample with standard was 81.9%-116.5%, the relative standard deviation was less than 2%. The method was characterized by speedily, sensitive, accuracy and low cost, it reduces the requirement for experimental instrument, and can be used for the detection of 16 polycyclic aromatic hydrocarbon in dark tea.