热带作物学报
熱帶作物學報
열대작물학보
CHINESE JOURNAL OF TROPICAL CROPS
2009年
11期
1698-1705
,共8页
杨江帆%杨广%梁小虾%叶乃兴%郑乃辉%林河通
楊江帆%楊廣%樑小蝦%葉迺興%鄭迺輝%林河通
양강범%양엄%량소하%협내흥%정내휘%림하통
固相微萃取(SPME)%气相色谱/质谱联用(GC-MS)%茉莉花茶%香气%检测方法
固相微萃取(SPME)%氣相色譜/質譜聯用(GC-MS)%茉莉花茶%香氣%檢測方法
고상미췌취(SPME)%기상색보/질보련용(GC-MS)%말리화다%향기%검측방법
solid-phase micro-extraction(SPME)%gas chromatography-mass spectroscopy(GC-MS)%jasmine scented tea%aroma%detection method.
为建立茉莉花茶香气的固相微萃取/气相色谱-质谱(SPME/GC-MS)联用的快速检验方法,以"春毫茉莉花茶"为材料,研究萃取头类型、吸附温度、吸附时间和样品量对SPME吸附茉莉花茶香气的影响,同时研究脱附时间对SPME中茉莉花茶香气脱附效果的影响.结果表明:应用SPME/GC-MS技术检测茉莉花茶香气,具有简便、快速、准确和灵敏度高等特点;测定茉莉花茶香气的推荐条件为用150 g茉莉花茶样品量、PDMS-100μm萃取头、在60℃下吸附2 h、脱附时间5 min.
為建立茉莉花茶香氣的固相微萃取/氣相色譜-質譜(SPME/GC-MS)聯用的快速檢驗方法,以"春毫茉莉花茶"為材料,研究萃取頭類型、吸附溫度、吸附時間和樣品量對SPME吸附茉莉花茶香氣的影響,同時研究脫附時間對SPME中茉莉花茶香氣脫附效果的影響.結果錶明:應用SPME/GC-MS技術檢測茉莉花茶香氣,具有簡便、快速、準確和靈敏度高等特點;測定茉莉花茶香氣的推薦條件為用150 g茉莉花茶樣品量、PDMS-100μm萃取頭、在60℃下吸附2 h、脫附時間5 min.
위건립말리화다향기적고상미췌취/기상색보-질보(SPME/GC-MS)련용적쾌속검험방법,이"춘호말리화다"위재료,연구췌취두류형、흡부온도、흡부시간화양품량대SPME흡부말리화다향기적영향,동시연구탈부시간대SPME중말리화다향기탈부효과적영향.결과표명:응용SPME/GC-MS기술검측말리화다향기,구유간편、쾌속、준학화령민도고등특점;측정말리화다향기적추천조건위용150 g말리화다양품량、PDMS-100μm췌취두、재60℃하흡부2 h、탈부시간5 min.
In order to establish a rapid detection method for the aroma from jasmine scented tea based on SPME-GC-MS, jasmine scented tea 'Chunhao' was used as experimental material to explore the effects of solid-phase micro-extraction (SPME) types, absorbing time, absorbing temperature, and sample amount of jasmine scented tea on absorption of aroma of jasmine scented tea by SPME, and the effects of desorbing time on desorbing of aroma of jasmine scented tea by SPME. The results showed that this detection method for the aroma of jasmine scented tea by SPME/GC -MS was characteristic of easy operation, rapidness, high precision and high sensitivity. It can be seen from the results that when the aroma of jasmine scented tea was detected by SPME/GC-MS, fused-silica fiber with 100 μm polydimethyl siloxane (PDMS-100 μm) was recommended to be used under the conditions that the sample amount of jasmine scented tea was 150 g at the absorbing temperature of 60℃ for 2. hours of absorbing time and 5 minutes of desorbing time.