气相色谱—质谱联用测定八角茴香油中茴香醚的顺反异构体

长期以来,八角茴香油已为人们用作调味品,饮料的香料和药材的原料。据文献报道顺式茴香醚有较大的毒性,而我国广西、广东、云南一带盛产八角茴香果.经化工厂提制成八角茴香油,其中主成分茴香醚,是顺式还是反式,还是两者都有,对一个传统出口八角茴香油的国家,是有必要     

超声雾化-顶空单滴微萃取气相色谱质谱联用检测八角茴香中挥发油成分

八角茴香是木兰科植物常绿乔木八角(Illicium verum Hook.f.)干燥的果实,是常用的辛香调味料,其挥发性成分是其香味的来源.八角茴香的挥发性成分中含量最高的是反式茴香醚.     

在线热裂解/气相色谱-质谱联用技术研究八角茴香油的热裂解行为

采用在线热裂解/气相色谱-质谱(Py/GC-MS)联用技术分析研究了八角茴香油的主要成分和裂解产物,探讨了氦气氛围中八角茴香油在300,400,500,600,700,800℃下的热裂解行为。结果从八角茴香油中检测出13种组分,其中反式茴香脑占94.848%;从裂解产物中检测出28种物质;八角茴香油组分在低温下(300~500℃)大部分发生转移;高温下(600~800℃)裂解相对比较剧烈,生成一些香味物质及甲苯、乙苯等有害物质;反式茴香脑在500℃时具有最大的转移率。上述结果为八角茴香油在食品中的应用提供了参考。     

一种简易同时蒸馏萃取方法用于八角茴香挥发油提取及其GC-MS分析

设计了一种简易同时蒸馏萃取(SSDE)装置并用于八角茴香挥发油提取及其气相色谱-质谱法(GC-MS)分析。 该装置由圆底烧瓶、恒压滴液漏斗和回流冷凝管构成。 通过对八角茴香挥发油组分的GC-MS分析,比较SSDE法和水蒸汽蒸馏提取法(HD)提取植物源挥发油的效果。 结果表明,SSDE法所得挥发油相对含量在0.1%以上的19种化合物占挥发油总量的98.84%(相对标准偏差(RSD)(n=3)均不大于5.59%,其中RSD﹤5%的17种化合物占鉴定组分89.5%。SSDE法和HD法挥发油平均收率分别为7.30%(RSD=2.37%(n=5))和6.67%(RSD=5.26%(n=5))。 SSDE法简便、快速,适用于八角茴香挥发油的提取。     

广西八角挥发油的提取研究与GC-MS分析

八角茴香(Illicium verum Hook.f)系木兰科八角属植物,主产于我国广西、云南、贵州等省[1].其中广西的产量占全国80%之多.     

微柱高效液相色谱法分离八角茴香挥发油成分

利用微柱高效液相色谱法(μ-HPLC)对八角茴香果实挥发油成分进行了分离,对固定相类型、流动相组成及流速等条件进行了优化。结果表明,选用氰基分析柱(250mm×0.32mmi.d.,5μm),正己烷-乙腈-二氯甲烷(80∶8∶12,体积比)为流动相,流速为2μL·min-1,八角茴香果实挥发油成分在微柱液相色谱上分离效果最好。在优化的实验条件下,对实际样品中反式-茴香醚、茴香醛等成分进行了定量。本实验为以后的μ-HPLC与毛细管气相色谱联用分析植物挥发油奠定了基础。     

超声雾化提取法测定3种香料中的挥发性成分

用超声雾化提取法提取,气相色谱法检测八角茴香和小茴香中反式茴香醚以及花椒中柠檬烯的含量.最佳提取条件为100 mg样品加入15 mL正己烷提取液,在35 W的超声功率下提取5 min(八角茴香和小茴香)或30 min(花椒).测定反式茴香醚的回收率在90.9%～100.7%之间,柠檬烯的回收率在90.0%～98 6%之间.将所建立的超声雾化提取法与常用的超声辅助提取法和索氏提取法进行了比较,证明所建立的方法具有提取时间短、效率高、设备简单且没有噪音污染等优点.     

顶空固相微萃取-气相色谱-质谱联用快速分析八角茴香中风味物质

采用顶空固相微萃取与气相色谱-质谱联用技术,对八角茴香中风味物质进行了分析。选用自制聚丙烯酸树脂涂层,对样品量、萃取时间、萃取温度、解吸时间等参数进行了优化,结果表明0．10g样品在60℃水浴中顶空萃取40min,250℃下解吸2min达到最佳条件。比较了顶空固相微萃取与传统水蒸气蒸馏两种前处理方法,分析结果非常相似。该方法可用于快速分析八角茴香中的风味物质。     

液态及超临界CO_2萃取八角茴香油的研究

本文用液态及超临界CO_2对八角茴香油进行了萃取研究，在萃取压力为20．0～25．0MPa的条件下，详细地考察了临界温度上下萃取温度和解析温度对出油率和油的表观相态的影响，结果表明，萃取温度越高和／或解析温度越低出油率越低；用液体CO_2萃取比用超临界CO_2萃取的出油率要高得多；萃取温度大约在318K以下或解析温度在临界温度以下时，萃取所得八角茴香油都有明显分层现象．     

固相微萃取法结合GC-MS分析八角茴香中挥发性化合物

采用均相聚合物涂层———自制聚丙烯酸树脂(PA)萃取头,顶空萃取八角茴香中挥发性有机物.对萃取温度、样品量、解吸时间等参数进行了优化,得到了最佳萃取条件.该方法快速、简便,重现性好.通过气相色谱-质谱联用技术定性分析,鉴定了53种成分.同时,与商品多相聚合物涂层CAR/PDMS、DVB/CAR/PDMS分析结果比较,显示自制均相聚丙烯酸树脂萃取头对八角中挥发性有机物的萃取更全面.     

Polysaccharides ofUngernia. VII. Partial hydrolysis of the mannan of the bulbs ofU. vvedenskyi

4-O--D-Manopyranosyl-D-mannose, O--D-mannopyranosyl-(l4)-O--D-mannopyranosyl-(14)-D-mannose, and 0--D-mannopyranosyl-(14)-O--D-mannopyranosyl-(l4)-O--D-mannopyranosyl-(l4)-D-mannose have been isolated fron the products of the partial hydrolysis of ungeromannan-V, obtained fron the bulbs ofUngernia vvedneskyi, and have been identified. This set of oligosaccharides confirms the regular structure of the carbohydrate chain of ungeromannan-V, which consists of a linear sequence of -14-bound D-mannose residues.DeceasedTranslated from Khimiya Prirodnykh Soedineii, No. 4, pp. 434–436, July–August, 1981.     

On the birthday of R. M.-F. Salikhdzhanova

Chronicle

On the birthday of R. M.-F. Salikhdzhanova     

Analysis of the equations for the temperature dependence of the retention index. I. Relation between equations.

The relation between the parameters of several equations for the retention index temperature dependence was established, taking the hyperbola deduced from the retention theory as starting point. The transformation factors depend only on methylene contributions to the thermodynamic functions of solution and temperature. Their evolution with the mean temperature of the range was illustrated for SE-30 and Carbowax-20M glass capillary columns. On this basis the post-run standardisation of dI/dT values at a reference mean temperature is possible. Examples and statistical correlation between series of parameters from different equations for perfumery solutes were shown.     

Polysaccharides ofUngernia. XIII. Carbohydrates of the leaves of the genusUngernia

The present communication gives the results of an investigation of the carbohydrates isolated from the leaves of eight species ofUngernia. From a single sample were successively extracted the water-soluble polysaccharides, the glucofructans, the pectin substances, and the hemicelluloses. The qualitative and quantitative monosaccharide compositions of the carbohydrates isolated were determined, and the characteristics of the pectin substances are given.Deceased.Institute of the Chemistry of Plant Substances, Academy of Sciences of the Uzbek SSR, Tashkent. Translated from Khimiya Prirodnykh Soedinenii, No. 5, pp. 647–650, September–October, 1984.     

Chemistry of the diazeniumdiolates. 3. Photoreactivity

We have found O(2)-substituted diazeniumdiolates, compounds of structure R(2)N-N(O)=NOR' that are under development for various possible pharmaceutical uses, to be rather photosensitive. With R = ethyl and R' = methyl, benzyl, or 2-nitrobenzyl, the observed product distributions suggest that two primary pathways are operative. A minor pathway involves the extrusion of nitrous oxide (N(2)O) with simultaneous generation of R(2)N(*) and R'O(*), which may then form amines, aldehydes, and alcohols. The major reaction pathway is an interesting photochemical cleavage of the N=N bond to form a nitrosamine (R(2)NN=O) and an oxygen-substituted nitrene (R'ON). The intermediacy of the O-nitrene was inferred from the production of abundant oxime, via rearrangement of the O-nitrene to a C-nitroso compound (R'ON --> O=NR'), and subsequent tautomerization to the more stable oxime. Involvement of the O-nitrene was confirmed by trapping with 2,3-dimethyl-2-butene to form the aziridine and with oxygen to generate the nitrate ester. 2-Nitro substitution on the benzyl derivative had surprisingly little effect on the reaction course. For each compound examined, minor amounts of nitric oxide (NO), presumably produced by secondary photolysis of the nitrosamine, were observed. Time-resolved infrared experiments provided additional support for the above reaction pathways and confirmed that the nitrosamine is a primary photoproduct. We have also found that the relative contributions of the reaction pathways can be altered in certain derivatives. For example, when R' = 2,4-dinitrophenyl, the contribution of the nitrosamine/O-nitrene-forming pathway was diminished. Pharmacological implications of these results are discussed.