光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
SPECTROSCOPY AND SPECTRAL ANALYSIS
2014年
9期
2449-2452
,共4页
顶空方法%SERS%葱属植物%二烯丙基二硫%烯丙基甲基硫醚%1-丙硫醇
頂空方法%SERS%蔥屬植物%二烯丙基二硫%烯丙基甲基硫醚%1-丙硫醇
정공방법%SERS%총속식물%이희병기이류%희병기갑기류미%1-병류순
Headspace%SERS%Allium species%Diallyl disulfide%Allyl methyl sulfide%1-propanethiol
为了在常温下鉴定新鲜植物样品的挥发性物质,且避免繁杂前期样品的制备过程,将新鲜样品切细后置入顶空瓶中,用注射器抽取顶空瓶上方的挥发性物质注入用微波法制备的纳米银溶胶中,用R-3000便携式拉曼光谱仪进行SERS的测量。获得了葱属植物大蒜、韭菜、葱的挥发性物质的表面增强拉曼光谱(SERS)。大蒜的SERS谱中较强的峰出现在307,399,569,711,1182,1287,1397,1622 cm -1处。韭菜的SERS谱中最强的峰出现在672 cm-1,较弱的峰出现在274,412,575,1185,1289,1396,1618 cm-1处。葱的SERS谱中最强的峰出现在693 cm -1,次强峰出现在372,888,1023 cm -1处,较弱的峰出现在1088,1211,1322 cm -1。获得二烯丙基二硫(diallyl disulfide)、烯丙基甲基硫醚(allylmethyl sulfide)、1-丙硫醇(1-Propanethiol)的液态、气态的SERS谱。经对比研究得出:吸附在银表面的大蒜、韭菜、葱的主要挥发性物质分别是二烯丙基二硫(diallyl disulfide)、烯丙基甲基硫醚(allyl methyl sulfide)、1-丙硫醇(1-Pro-panethiol)。同是葱属植物但不同种大蒜、韭菜、葱其吸附在银表面的主要的挥发性物质不一样,吸附在银表面的各种葱的主要挥发性物质都是1-丙硫醇。该实验结果表明顶空与SERS结合,不需要复杂的提取过程,可直接用于新鲜植物的挥发性物质快速检测。
為瞭在常溫下鑒定新鮮植物樣品的揮髮性物質,且避免繁雜前期樣品的製備過程,將新鮮樣品切細後置入頂空瓶中,用註射器抽取頂空瓶上方的揮髮性物質註入用微波法製備的納米銀溶膠中,用R-3000便攜式拉曼光譜儀進行SERS的測量。穫得瞭蔥屬植物大蒜、韭菜、蔥的揮髮性物質的錶麵增彊拉曼光譜(SERS)。大蒜的SERS譜中較彊的峰齣現在307,399,569,711,1182,1287,1397,1622 cm -1處。韭菜的SERS譜中最彊的峰齣現在672 cm-1,較弱的峰齣現在274,412,575,1185,1289,1396,1618 cm-1處。蔥的SERS譜中最彊的峰齣現在693 cm -1,次彊峰齣現在372,888,1023 cm -1處,較弱的峰齣現在1088,1211,1322 cm -1。穫得二烯丙基二硫(diallyl disulfide)、烯丙基甲基硫醚(allylmethyl sulfide)、1-丙硫醇(1-Propanethiol)的液態、氣態的SERS譜。經對比研究得齣:吸附在銀錶麵的大蒜、韭菜、蔥的主要揮髮性物質分彆是二烯丙基二硫(diallyl disulfide)、烯丙基甲基硫醚(allyl methyl sulfide)、1-丙硫醇(1-Pro-panethiol)。同是蔥屬植物但不同種大蒜、韭菜、蔥其吸附在銀錶麵的主要的揮髮性物質不一樣,吸附在銀錶麵的各種蔥的主要揮髮性物質都是1-丙硫醇。該實驗結果錶明頂空與SERS結閤,不需要複雜的提取過程,可直接用于新鮮植物的揮髮性物質快速檢測。
위료재상온하감정신선식물양품적휘발성물질,차피면번잡전기양품적제비과정,장신선양품절세후치입정공병중,용주사기추취정공병상방적휘발성물질주입용미파법제비적납미은용효중,용R-3000편휴식랍만광보의진행SERS적측량。획득료총속식물대산、구채、총적휘발성물질적표면증강랍만광보(SERS)。대산적SERS보중교강적봉출현재307,399,569,711,1182,1287,1397,1622 cm -1처。구채적SERS보중최강적봉출현재672 cm-1,교약적봉출현재274,412,575,1185,1289,1396,1618 cm-1처。총적SERS보중최강적봉출현재693 cm -1,차강봉출현재372,888,1023 cm -1처,교약적봉출현재1088,1211,1322 cm -1。획득이희병기이류(diallyl disulfide)、희병기갑기류미(allylmethyl sulfide)、1-병류순(1-Propanethiol)적액태、기태적SERS보。경대비연구득출:흡부재은표면적대산、구채、총적주요휘발성물질분별시이희병기이류(diallyl disulfide)、희병기갑기류미(allyl methyl sulfide)、1-병류순(1-Pro-panethiol)。동시총속식물단불동충대산、구채、총기흡부재은표면적주요적휘발성물질불일양,흡부재은표면적각충총적주요휘발성물질도시1-병류순。해실험결과표명정공여SERS결합,불수요복잡적제취과정,가직접용우신선식물적휘발성물질쾌속검측。
In order to identify volatile organic compounds of fresh plants at room temperature and avoid sample pretreatment and extractions which can be labor intensive ,garlic ,Chinese chives and scallion were chopped into pieces .Then some of them were placed in the headspace vial and sealed .The gases were drawn from the vial with a syringe and were injected very slowly into Ag colloids for test using R-3000 portable Raman spectrometer .The spectra of volatile organic compounds of allium species ,fresh garlic ,Chinese chive and shallot plants were successfully recorded for the first time .For garlic high intensity bands are present at 307 ,399 ,569 ,711 ,1 182 ,1 287 ,1 397 and 1 622 cm-1 .For Chinese chives the high intensity band is present at 672 cm -1 . Low intensity bands are present at 274 ,412 ,575 ,1 185 ,1 289 ,1 396 ,1 618 cm-1 .For shallot high intensity bands are present at 693 cm-1 .Lower intensity bands are present at 372 ,888 ,1 023 cm -1 .Low intensity bands are present at 1 088 ,1 211 and 1 322 cm-1 .The SERS of dially1 disulfide ,allyl methyl sulfide and 1-propanethiol in liquid state and gas state were also ob-tained .The main volatile organic compound of fresh garlic ,Chinese chive and shallot are diallyl disulfide ,allyl methyl sulfide and 1-propanethiol respectively ,and the volatile organic compound of fresh onion ,scallion ,shallot and chive are all 1-propaneth-iol .The presented results illustrate that combining headspace and SERS is a powerful tool for volatile organic compound analysis in fresh plants .The volatile organic compound can be detected in fresh plant samples directly and quickly without extraction .
