肉苁蓉挥发性化学成分分析

报道了用同时蒸馏—萃取法提取肉苁蓉挥发性物质，测得肉苁蓉挥发油的含量为3．5％；利用GC／MS法分离确认出24种化学成分；用峰面积归一化法得出各化学成分在挥发油中的相对百分含量，其中主要成分为丁香酚，占总挥发油的83．60％；又用单离子法分离出丁香酚，并用IR，EI-MS法对其进行分析确认。     

黄柏挥发性化学成分分析

报道了用同时蒸馏－萃取装置（SDE）提取黄柏的挥发性物质,测得黄柏挥发油的含量为0．45％,用GC／MS法从黄柏挥发油中分离并确认出41种化学成分;用峰面积归一化法通过化学工作站数据处理系统得出各化学成分在挥发油中的百分含量,其中主要成分为酮类（16．38％）、醛类（13．94％）、醇类（8．27％）、酚类（50．38％）、酸类（2．18％）、其他类成分仅占3．33％,共占总检出量的97．5％。     

茵陈挥发油的超临界CO2萃取法与水蒸气蒸馏法提取的比较

采用超临界CO2萃取法与水蒸气蒸馏法从菌陈中提取挥发油，用GC－MS法测定其化学成分和相对含量，对两种提取方法所得的挥发油进行比较，水蒸气蒸馏法提取菌陈挥发油的产率为0．03％（w），主要成分为匙叶桉油烯醇、吉玛烯D、反式－石竹烯、2，4－戊二炔苯、β－金石欢烯等；超临界CO2萃取法提取的产率为0．15％(w)，主要成分为百里酚、β－红没药烯、2－异丙基－4－甲基－1－甲氧基苯、异百里酚、2－特丁基－4－（2，4，4－三甲基戊基）苯酚、β－杜松烯等。     

酸枣仁中挥发性化学成分分析

报道了用蒸馏-萃取法提取酸枣仁中挥发性物质，测得酸枣仁挥发油的含量为10．40％，用GC／MS法从酸枣果肉挥发油中分离并确定出38种化学成分。用峰面积归一化法通过化学工作站数据处理系统，得出各化学成分在挥发油中的含量。其中主要成分为酯类化合物占挥发油总量的76．12％，其次为酸类化合物为7．65％，醇类化合物为3．43％，醚类化合物为2．16％，烷烃化合物为4．61％，其它类化合物仅占4．85％。共占酸枣仁中挥发油总量的98．82％。     

超临界CO_2萃取连翘挥发油的正交试验和GC-MS分析

采用正交试验法对超临界CO2萃取连翘挥发油的条件进行了研究；结果显示最佳萃取条件为萃取压力30MPa，萃取温度35℃，解析压力6．7MPa，解析温度50℃，粉碎度0．55mm；按对结果的影响大小依次排列为萃取温度，粉碎度，萃取压力，解析压力，解析温度；用气相色谱－质谱联用技术测定了最佳萃取条件所得连翘挥发油的化学成分，从中鉴定出21种成分，并测定了其相对含量，主要成分为α－蒎烯、β－蒎烯、萜品醇－4、α－萜品醇、苯甲醇等。     

中国车前草挥发性化学成分分析

用同时蒸馏 萃取装置(SDE)提取中国车前草的挥发性物质,测得车前草挥发油质量分数为2.79%,用GC MS法从车前草的挥发油中分离确认出20种化学成分,占挥发油总量的95.08%。用峰面积归一化法通过化学工作站数据处理系统得出各化学成分在挥发油中的质量分数。     

沙枣花挥发油化学成分的研究

本文用自制的水蒸汽蒸馏－溶剂萃取装置从沙枣花鲜花中提取挥发油，测得其含量为0.1%,用毛细管气相色谱-质谱法对挥发油的化学成分进行了研究,色谱分离出85个组分,质谱鉴定了其中47个组分,主要组分为反式肉桂酸乙酯,占总色谱峰面积的78.88%,IR和NMR为主要成分的鉴定提供了佐证。     

GC／MS法测定木香挥发油化学成分

用气相色谱-质谱法对木香挥发油进行化学成分的分析。采用水蒸气馏法从木香中提取挥发油。试用不同类型的毛细管柱进行分析,找出最佳分析条件,用归一化法测定其含量,并用气相色谱-质谱法对化学成分进行鉴定。共鉴定了38个成分,占挥发油总成分的86%以上。方法稳定可靠。重现性好,适用于中药挥发油的化学成分分析。     

蓝布正挥发油化学成分的GC-MS分析

研究贵州产蓝布正（Herba Gei）挥发油的化学成分，采用水蒸气蒸馏法提取蓝布正挥发性成分，用气相色谱－质谱进行分离测定，结合计算机检索技术对分离的化合物进行鉴定，应用色谱峰面积归一化法测定各成分的相对含量；水蒸气蒸馏提取物得率是0．10％，共分离出103种成分，鉴定出40个化学成分，其主要成分为脂肪酸及其甲酯类化合物、萜烯类及其含氧衍生物等，主要有棕榈酸（13．2％）、11，14，17－二十碳三烯酸甲酯（10．4％）、亚油酸（8．6％）、石竹烯氧化物（3．9％）、丁子香酚（3．4％）和反式－植醇（3．2％）等。     

唇形科植物挥发油化学成分的GC/MS研究

在运用GC/MS技术的基础上采用HELP(直观推导式演进特征投影法)方法研究了九种唇形科植物的化学成分, 并以唇形科植物半枝莲为例详细介绍了HELP的解析过程. 应用总体积积分法测定各成分的相对百分含量. 鉴定出相对共有成分达70余种, 大多数为萜类化合物及其衍生物. 不同的唇形科植物的挥发油化学成分与特征成分有明显差异. 九种药材挥发性成分中均含有桉油精(Eucalyptol, 含量0.10%～1.01%)和芳樟醇(Linalool, 0.11%～3.05%). 利用GC/MS分析法结合化学计量学分辨方法鉴定挥发油化学成分, 比单独使用GC-MS法结果更准确、可靠.     

苦杏仁的炮制及有效成分提取和分析进展

苦杏仁为常用中药,用途广泛,人们对其研究热潮方兴未艾．本文介绍了苦杏仁的炮制及有效成分提取和分析进展,引用文献55篇．     

Analysis of volatile components from Melipona beecheii geopropolis from Southeast Mexico by headspace solid-phase microextraction

A head space solid-phase microextraction method combined with gas chromatography–mass spectrometry was developed and optimised to extract and analyse volatile compounds of Melipona beecheii geopropolis. Seventy-three constituents were identified using this technique in the sample of geopropolis collected. The main compounds detected include β-fenchene (14.53–15.45%), styrene (8.72–9.98%), benzaldehyde (7.44–7.82%) and the most relevant volatile components presents at high level in the geopropolis were terpenoids (58.17%).     

Analysis of volatile components in herbal pair Semen Persicae‐Flos Carthami by GC‐MS and chemometric resolution

Analysis of volatile components in herbal pair (HP) Semen Persicae‐Flos Carthami (SP‐FC) was performed by GC‐MS coupled with chemometric resolution method (CRM). Furthermore, temperature‐programmed retention indices were used together with mass spectra for identification of the volatile components. With the help of CRM, the two‐dimensional data obtained from GC‐MS instruments were resolved into a pure chromatogram and a mass spectrum of each chemical compound. By use of these methods upon two‐dimensional data, 26, 49, and 59 volatile chemical components in essential oils of single herb Semen Persicae, Flos Carthami, and HP SP‐FC were determined qualitatively and quantitatively, accounting for 78.42, 81.08, and 82.48% total contents of essential oil of single herb Semen Persicae, Flos Carthami, and HP SP‐FC, respectively. It is shown that the accuracy of qualitative and quantitative analysis can be enhanced greatly by means of CRM. It is further demonstrated that the numbers of volatile chemical components of HP SP‐FC are almost the addition of those of two single herbs, but the main volatile chemical components of the former are completely different from those of single herb Semen Persicae or Flos Carthami because of chemical reactions and physical changes occurring in the process of decocting two single herbs. This means that chemical components especially pharmacologically active compounds in the recipe might be different from those of single herbs.     

GC/MS-positive ion chemical ionization and MS/MS study of volatile benzene compounds in five different woods used in barrel making

Extracts from acacia, chestnut, cherry, mulberry, and oak wood, used in making barrels for aging wine and spirits were studied by GC/MS positive ion chemical ionization (PICI). Wood chips were extracted by a 50% water/ethanol solution and a tartrate buffer pH 3.2-12% ethanol (model wine) solution. The principal compounds identified in extracts were guaiacol-containing aldehydes and alcohols, such as benzaldehyde and derivatives, vanillin and syringaldehyde, cinnamaldehyde and coniferaldehyde, eugenol and methoxyeugenol, guaiacol and methoxyguaiacol derivatives. PICI using methane as reagent gas produced a high yield of the protonated molecular ion of volatile phenols, compound identification was confirmed by collision-induced-dissociation (CID) experiments on [M + H](+) species. MS/MS fragmentation patterns were studied with standard compounds: guaiacol-containing molecules were characterized by neutral methyl and methanol losses, benzaldehyde derivatives by CO loss. Acacia wood extracts contained significant syringaldehyde and anisaldehyde, but no eugenol and methoxyeugenol. Significant syringaldehyde, eugenol and methoxyeugenol, and high vanillin were found in chestnut and oak wood extracts; low presence of volatile benzene compounds was found in mulberry wood extracts. Cherry wood extracts were characterized by the presence of several benzaldehyde derivatives and high trimethoxyphenol.     

Volatile components of vine leaves from two Portuguese grape varieties (Vitis vinifera L.), Touriga Nacional and Tinta Roriz,analysed by solid-phase microextraction

The purpose of this work was to study the volatile composition of vine leaves and vine leaf infusion prepared from vine leaves collected at 30 and 60 days after grape harvest of two Vitis vinifera L. species. Eighteen volatile compounds were identified by gas chromatography–mass spectrometry in vine leaves and in vine leaf infusions. It was observed that the volatile compounds present in vine leaves are dependent on the time of harvest, with benzaldehyde being the major volatile present in vine leaves collected at 30 days after harvesting. There are significant differences in the volatile composition of the leaves from the two grape cultivars, especially in the sample collected at 60 days after grape harvest. This is not reflected in the volatile composition of the vine leaf infusion made from this two cultivars, the more important being the harvesting date for the volatile profile of vine leaf infusion than the vine leaves grape cultivar.     

碧桃花、叶、茎、果实挥发油成分及抗油脂氧化、抑菌作用

采用超临界CO₂萃取,应用气相色谱-质谱联用(GC-MS) 法鉴定碧桃花、叶、茎、果实挥发油中化学成分和相对质量浓度,共鉴定178个化合物。 其中花挥发油中主要成分有苯甲醛(11.42%)、α-金合欢烯(9.18%)、十六烷酸(8.03%)。叶挥发油中主要成分有:苯甲醛(14.72%)、二十五烷(9.85%)、二十八烷(8.29%)、二十三烷(5.14%)。 茎挥发油中主要成分有(Z)-3-己烯-1-醇(28.90%)、(E)-2-己烯醇(16.06%)、正己醇(6.86%)。 果实挥发油中主要成分有:苯甲醛(20.46%)、十六烷酸(5.84%)、苯甲醇(5.01%)。 在10~40 d贮藏期内,花、叶、茎、果实挥发油可明显降低花生油的过氧化值和酸值,其中以茎挥发油高剂量组降低作用最强。 花和茎挥发油具有较强的抑菌作用,其最小抑菌浓度(MIC)值在0.024~0.188 g/L范围内。     

Chemical profiling and quantification analysis of flavonoids in different varieties of Euryales Semen by ultra-high-performance liquid chromatography with tandem mass spectrometry

Euryales Semen was a traditional Chinese medicine, which has been commonly used to treat spermatorrhea, enuresis, and frequent urination. Flavonoids were a critical ingredient in determining the function and quality of Euryales Semen. At present, no effective method has been established for the qualitative of Euryales Semen flavonoids. In this study, an ultra-high-performance liquid chromatography-quadrupole-time of flight-mass spectrometry method was established for flavonoids. By comparison with standard or literature data, 32 flavonoid compounds have been identified in Euryales Semen. Based on the qualitative results, an ultra-high-performance liquid chromatography-triple quadrupole tandem mass spectroscopy method was developed for the main components, and the linearity, the limit of detection, limit of quantification, repeatability, precision, stability, and recovery of the method were verified. The principal component analysis and the hierarchical clustering heatmaps analysis showed that the 30 batches of samples were distinctly separated into the North Gordon Euryale and South Gordon Euryale, and the measured contents of the six flavonoids in North Gordon Euryale were more abundant than in South Gordon Euryale, especially isoquercitrin, hesperetin, and quercetin. It provided a scientific basis for the quality control of Euryales Semen and a theoretical basis for the rational utilization of Euryales Semen resources.     

化学计量学用于决明子色谱指纹图谱峰纯度的鉴别

应用化学计量学方法鉴别色谱指纹图谱的峰纯度。对背景进行扣除后,用对照组分光谱构建正交投影矩阵对目标色谱峰的光谱进行投影,以目标色谱峰投影后的残余光谱与投影前的原始光谱的夹角余弦为判据鉴别目标色谱峰的峰纯度：用该方法对决明子药材色谱指纹图谱的峰纯度进行识别,鉴别出大黄素、大黄酚和大黄素甲醚三个纯色谱峰。此方法用于色谱指纹图谱峰纯度的鉴别,结果可靠。     

大叶黄杨叶、茎、果挥发油成分及抗病毒作用

研究了大叶黄杨叶、茎、果挥发油的化学成分及抗病毒活性。 采用超临界二氧化碳萃取,应用气相色谱-质谱联用(GC-MS) 法鉴定挥发油化学成分,考察体外抗病毒作用。 共鉴定133个化合物,大叶黄杨叶挥发油中主要有2-乙氧丙烷(41.92%)、(E)-2-己烯-1-醇(17.8%)、 (E)-香叶醇(7.86%)、甲基环己烷(6.60%)等;大叶黄杨茎挥发油中主要有甲氧基苯基肟(33.10%)、二十八烷(14.34%)、α-甲基-α-[4-甲基-3-戊烯基]环氧乙烷甲醇(12.48%)、甲苯(11.88%)、二十一烷(7.74%) 等;大叶黄杨果挥发油中主要有苯甲醛(15.52%)、甲苯(15.03%)、甲基环己烷(14.76%)、(Z)-3-己烯-1-醇(10.98%)等。 大叶黄杨叶、茎、果的环己烷、乙醚萃取挥发油对特定病毒有显著抑制效果。 大叶黄杨叶、茎、果中挥发油萃取部位成分差异明显,有特定抗病毒活性。