5-乙酰(苯甲酰)基-4-芳基-3,4-二氢嘧啶-2(1H)-酮的质谱裂解规律

利用飞行时间质谱仪的高分辨本领和离子阱串联质谱技术研究了5乙酰(苯甲酰)基4芳基3,4二氢嘧啶2(1H)酮(1-5)的电子轰击质谱的裂解规律.将所有质谱离子的精确质量数据经OpenLynx软件导出其分子离子和碎片离子的元素组成.根据质谱裂解规律,主要质谱离子得到了归属,并经离子阱串联质谱技术加以证实.化合物1-3的质谱出现了丰度很强的分子离子峰,其中1和3的分子离子为基峰,证明此类化合物的结构相当稳定.但4和5的分子离子峰却很弱(相对丰度在4%以下),这是由于嘧啶环4位上的苯环分别含有强吸电子基团-NO2(在苯环的间位才有此效应)和-Cl(苯环的2和4位均含有氯)所致.化合物1-5的主要裂解包括:分子离子失去芳基形成丰度很高的阳离子(M-Ar)+;分子离子失去羰基形成中等强度的阳离子(M-RCO)+;分子离子失去氢原子所产生的(M-H)+峰,以及消除中性分子NH=C=X的嘧啶环破裂裂解.此外,所有化合物在低质量区都发现明显的苯基阳离子Ph+(m/z77).并且还提出个别化合物的几个额外裂解过程为:化合物4(分子中苯环的3位上含有硝基)出现的基峰(M-OH)+;化合物5(分子中苯环的2和4位上都含有氯原子)出现了的基峰(M-Cl)+;化合物3和5分别出现了m/z238(16%)和m/z241(29%)的特征离子峰,它们由相应的离子消除中性分子四员内酰胺生成查耳酮离子,该离子具有共轭大Π键而稳定存在.     

355 nm激光作用下甲胺分子的多光子电离研究

利用飞行时间(TOF)质谱装置研究了甲胺分子在355 nm激光作用下的多光子电离情况,实验得到了清晰的质谱图,对其中的母体离子和主要产物离子(m/z=30,28)进行初步分析后,利用ab initio计算方法对各产物离子的产生过程和稳定构型进行了进一步的确认.特别是通过QST3方法找到了m/z=30到m/z=28的离子反应的过渡态构型,通过相应的IRC计算对此反应进行了很好的验证,从而进一步确定了m/z=28的离子就是CHNH .     

Photoionization and Dissociative Photoionization Study of Cholesterol by IR Laser Desorption/Tunable Synchrotron VUV Photoionization Mass Spectrometr

介绍了一种将红外激光解吸/真空紫外光电离质谱技术应用于分析胆固醇的新方法. 由于近阈值单光子电离作用,可以在低能量下只产生纯净的胆固醇分子离子峰;增加光子能量则可以使碎片离子峰大量出现. 为了验证碎片离子的归属,利用商用高分辨电子轰击电离-飞行时间质谱仪分析并指认了胆固醇主要的碎片峰. 此外,采用量子化学从头算的方法研究了胆固醇母体离子和碎片构型,并讨论了部分主要的光解离机理     

5-乙氧羰基-4-取代-6-甲基-3,4-二氢嘧啶-2（1H）-酮的电子轰击飞行时间质谱表征

研究了一系列5-乙氧羰基-4-取代-6-甲基-3,4-二氢嘧啶-2(1H)-酮的电子轰击飞行时间质谱,建立了此类化合物的裂解方式和分子离子峰的强度规律.利用飞行时间质谱的中分辨能力,测得了各碎片离子的精确质量,这些数据经OpenLynx软件导出所有分子离子和碎片离子的元素组成.根据质谱裂解规律,主要质谱离子得到了归属.两类主要裂解途径为:对所有标题化合物,通过失去4位上的R1,酯基上的C2H4(麦氏重排)和H2O(通过环状六员过渡态)形成三种阳离子;对4-芳基化合物,通过失去EtCO2形成另一类阳离子.此外,还提出了个别化合物的一些重要裂解行为.     

1,3-和1,4-环己亚硝酸二酯电子轰击解离的结构效应（英文）

烷基亚硝酸二酯是一种重要的亚硝化剂,也是大气中NOx污染物的来源之一,近年来引起了人们的广泛关注.烷基亚硝酸二酯中两个ONO官能团对分子反应活性的影响以及在化学反应中的作用尚不清楚.本文用电子碰撞电离质谱研究了 1,3-环己亚硝酸二酯和1,4-环己亚硝酸二酯的解离过程.实验结果发现两种结构异构体的分解产物不同:除了亚硝酸酯的特征碎片NO~+(m/z=30)外,对于1,3-异构体,碎片离子m/z=43和71的丰度最高;而对于1,4-异构体,电子碰撞电离质谱谱图中解离产物m/z=29、57、85和97的强度较大.对中性分子、分子离子以及中间产物的结构和电荷计算结果显示,1,3-环己亚硝酸二酯的分解清楚地显示出两步解离机制,即母体阳离子M~+首先失去一个NO,然后中间离子(M-NO)~+通过两个αC-βC键的断裂打开六元碳环;对于1,4-环己亚硝酸二酯,除了两步分解机制之外,还可以直接从母体阳离子M~+发生βC-βC键的裂解.研究结果有助于理解在大气反应及亚硝化合成反应中烷基亚硝酸二酯的分子结构对反应历程的影响.     

532nm及355nm丁酮多光子电离质谱研究

利用激光质谱法,采用355 nm及532 nm激光作为光源对丁酮分子进行了多光子电离解离研究,得到了2种波长下丁酮的多光子电离飞行时间质谱图主要有质荷比为1(H ),15(CH3 ),43(CH3CO )的质谱峰.532 nm质谱比较丰富,有较强的质荷比为45的信号,可以认为这是丁酮异构体电离解离得到的产物;同时探测到了质荷比为4,6,8的信号,可能是高价离子.355 nm质谱图相对简单.根据信号比例随激光能量的变化及主要的离子信号,得出了2种波长下主要的解离电离通道.     

532 nm及355 nm丁酮多光子电离质谱研究

利用激光质谱法,采用355 nm及532 nm激光作为光源对丁酮分子进行了多光子电离解离研究,得到了2种波长下丁酮的多光子电离飞行时间质谱图主要有质荷比为1(H ),15(CH3 ),43(CH3CO )的质谱峰.532 nm质谱比较丰富,有较强的质荷比为45的信号,可以认为这是丁酮异构体电离解离得到的产物;同时探测到了质荷比为4,6,8的信号,可能是高价离子.355 nm质谱图相对简单.根据信号比例随激光能量的变化及主要的离子信号,得出了2种波长下主要的解离电离通道.     

产生惰性气体高价离子的新方法

此文介绍了一种产生惰性气体高价离子的新方法。在飞行时间质谱仪（ＴＯＦ－ＭＳ）上，把聚焦后的３０８ｎｍ激光掠射到不锈钢栅网上，产生超短脉冲的电子束，利用这种电子束来轰击惰性气体（Ｈｅ，Ｎｅ，Ａｒ，Ｋｒ，Ｘｅ），产生高价离子，并给出了这些离子的飞行时间质谱。这些高价离子可能是电子逐次电离气体原子产生的。这种方法可作为飞行时间质谱的一种理想的“软电离”的“点”离子源     

激光解吸电离技术在线测量苯水相二次有机气溶胶

利用气溶胶激光飞行时间质谱仪激光解吸电离技术开展了苯水相二次有机气溶胶在线测量研究。实验结果表明,苯水相光氧化反应形成的二次有机气溶胶粒子粒径小于1.0μm,激光解吸电离质谱中存在醛类m/z 29(CHO~+)、57(CHOCO~+),羧酸m/z 44(COO~+),苯环m/z 77(C_6H~+_5)、65(C_5H~+_5)和酚类化合物m/z 93(C_6H_5O~+)特征裂解碎片峰。醛类、羧酸和酚类化合物是苯水相SOA粒子的化学组分,各类型组分含量大小关系为:醛类化合羧酸酚类化合物。气溶胶激光飞行时间质谱仪激光解吸电离技术能够用于水相SOA粒子化学组分的在线测量,可用于水相SOA形成机理和过程的研究。     

飞行时间质谱中光发射电子碰撞电离过程

在飞行时间质谱仪中用３０８ｎｍ激光研究ＮＯ／Ａｒ激光多光子电离过程中，发现产生了Ａｒ及ＮＯ的高价离子现象。飞行时间质谱峰宽表明，这种电离过程是在很短的时间内进行的（〈５０ｎｓ）；从离子的质谱峰形分析得到离子产生的空间分布是连续分布在排斥极－拉出极之间的；延时脉冲加速场实验结果表明，当电场落后于激光０．２μｓ时，离子信号消失，综合实验结果，我们提出了拉出极栅网表面光发射电子碰撞电离机理。     

13-乙酰基-9-甲基-11-羰基-8-氧代-10,12-二氮杂三环[7.3.1.02,7]十三碳-2,4,6-三烯的一锅煮合成和结构表征

描述了一种有效的环境友好的“一锅煮”法合成13-乙酰基-9-甲基-11-羰基-8-氧代-10,12-二氮杂三环[7．3．1．0~(2,7)]十三碳-2,4,6-三烯。该法用廉价易得的溴化镁作催化剂,在无溶剂存在下,由起始原料水杨酸,乙酰丙酮和脲通过Biginelli缩合反应伴随着分子内的Michael加成反应一步完成。用核磁共振氢谱、碳谱、飞行时间质谱以及红外光谱数据表征了产物的结构为一氧桥多环化合物,而不是带有自由羟基的二氢嘧啶酮。最后由质谱给出的精确质量及其所代表的元素组成推出了该化合物的质谱裂解途径。     

Analysis of cyclic boronated and trimethylsilylated phenolalkylamines by gas chromatography and electron impact mass spectrometry

The side chain of phenolalkylamines containing a bifunctional group was derivatized as the cyclic boronate, and then the residual phenolic group was trimethylsilylated. The resulting derivatives were single reaction products in each case, with good gas chromatographic properties and informative mass spectra to afford prominent molecular ions by gas chromatography with electron impact mass spectrometry (GC/EI-MS). The cyclic boronated-trimethylsilylated derivatives yielded the isotope pattern for boron ((10)B:(11)B =-1:4.2) and characteristic ions [M](+), [M - H](+), [M - CH(3)](+), [M - RBO](+), [M - TMSO](+), and [M - TMSO - C(6)H(5)](+) ions in the mass spectra. In order to distinguish between m- and p-phenolalkylamines, the mass spectra of the cyclic phenylboronated-trimethylsilylated (PBA-TMS) derivatives were compared with those of the trimethylsilylated (TMS) derivatives. The TMS derivatives of octopamine (p-) and norfenefrine (m-) showed identical mass spectra, while the PBA-TMS derivatives had mass spectra sufficiently different from one other to distinguish between the isomers. The most prominent ion of the PBA-TMS derivative is the [M - H](+) ion (m/z 310) for octopamine and the [M](+) ion (m/z 311) for norfenefrine. Copyright 1999 John Wiley & Sons, Ltd.     

Mass spectral study of substituted allyl aryl and allyl alkyl selenides and some analogous sulfides

The electron impact (EI) mass spectra of allyl aryl selenides showed abundant molecular ions and many fragment ions containing the selenium atom. alpha-Cleavage is the dominant process in the fragmentation of selenides, and cleavage product ions are characteristic of the substituents. In the case of 3-methyl allyl and related aryl selenides, characteristic delta-hydrogen migration to the selenium atom is observed. A McLafferty-type rearrangement is found in benzyl allyl selenides and substituted alkyl allyl selenides. The charge on the rearrangement products preferably remains on the fragments containing the phenyl group. The [M - SeH](+), [M - CH(3)](+) and [M - C(2)H(4)](+) ions are found only in the EI mass spectrum of allyl phenyl selenide, and are attributed to a Claisen rearrangement in the source of the mass spectrometer. All structurally informative fragmentation processes are supported by collision induced dissociation spectra of molecular ions. The fragmentation patterns found in methane chemical ionization (CI) spectra of the selenides were significantly different from those observed in EI. The EI and CI mass spectra of analogous sulfides showed similar behaviour to that observed in the corresponding selenides. Copyright 1999 John Wiley & Sons, Ltd.     

Self-chemical ionization of diethylzinc

The self-chemical ionization of diethylzinc is examined by Fourier transform ion cyclotron resonance (FT-ICR) mass spectrometry and semiempirical molecular orbital calculations. Electron impact of diethylzinc neutral produces the radical cation, C(4)H(15)Zn(+) (m/z x 122), which reacts further with the neutral (C(2)H(5))(2)Zn to give the following product ions: Zn(+) (m/z x 64), C(2)H(5)Zn(+) (m/z x 93), C(4)H(9)Zn(+) (m/z x 121), C(4)H(11)Zn(2)(+) (m/z x 187), and C(6)H(15)Zn(2)(+) (m/z x 215). To determine the structure and pathways for production of these ions, monoisotopic (12)C(4)H(15)(64)Zn(+), (64)Zn(+) and (12)C(2)H(5)(64)Zn(+) were individually isolated and reacted with the neutral background. We also performed semiempirical molecular orbital calculations (ZINDO/1). The molecular orbital calculations and experimental data are consistent in predicting that the ethyl group on the diethylzinc cation carries the positive charge. Copyright 1999 John Wiley & Sons, Ltd.     

Identification of a Suspicious Drug by Using Spectroscopic Techniques: A Forensic Analytical Chemistry Project

We identified a drug analog by using screening and confirmatory tests. Total ion chromatogram showed a major peak with a molecular ion of 190 m/z, but no mass spectrum match from the NIST library. A minor peak was identified as 1-benzylpiperazine (molecular ion = 176 m/z). Molecular ions of both peaks differed by 14 m/z units, suggesting a –CH₂ – group. Both peaks had the same base peak of 91 m/z. Derivatizing the drug analog with trifluoroacetic anhydride confirmed the presence of 1-benzylpiperazine. No reaction occurred with the major peak. We proposed a benzyl-4-methylpiperazine structure, which was confirmed by NMR studies.     

Electron ionization mass spectrometric study of isomeric cyclohexyl-N-phenylanilines

Electron ionization mass spectra of N-, 2-, 3-, and 4-cyclohexyl-N-phenylaniline isomers have been obtained and investigated. Molecular ions of the 2–4 isomers are the base peaks demonstrating their high stability relative to the N-isomer in which the molecular ion intensity is about 76%. The characteristic primary fragmentation pattern for each isomer is proposed and discussed. Further fragmentations of some of the primary fragment ions is also discussed.     

亮氨酸与异亮氨酸的低频集体振动的太赫兹光谱研究

太赫兹(THz)波是指频率在0.1～10 THz频段的电磁波。太赫兹光谱技术不同于以往的检测手段,可以用于检测氨基酸同分异构体,反映物质的分子结构和构型,对食品安全和药品药性控制有着重要的意义。亮氨酸与异亮氨酸属于同系的同分异构体,它们具有近似的分子结构,但物理化学性质有很大的差别。生物大分子的太赫兹吸收与其分子间氢键和分子内氢键的振动和转动能级相关的偶极跃迁有关,可以利用分子偶极跃迁进行生物分子的指纹识别。采用太赫兹时域光谱(THz-TDS)和傅里叶红外光谱(FTIR),对亮氨酸和异亮氨酸进行了测量。在中红外波段亮氨酸与异亮氨酸的吸收光谱几乎完全重叠,而在太赫兹频波段可以观察到它们的光谱存在明显差异,因此太赫兹光谱能够作为快速准确鉴别这两种物质的方法。采用密度泛函理论(DFT)对亮氨酸和异亮氨酸的低频集体振动模式进行理论模拟,并对其太赫兹光谱进行研究和讨论。通过比较实验和理论结果,计算得到的峰位与实验结果可以互相印证。     

Evidence of simple intramolecular rearrangement at polymer end groups in secondary ion mass spectrometry

Polystyrenes with various end groups were analyzed by time-of-flight secondary ion mass spectrometry (TOF-SIMS). These end groups were obtained by termination of the active anionic group by sulfonate or chlorosilane derivatives. Characteristic end group fragments for each sulfonate derivative were observed. On the one hand, for PS capped by methyl sulfonate, or -(CH(2))(4)-O-SO(2)-CH(3), almost complete end group fragment is observed at m/z 95 and a [O-SO(2)-CH(3)](-) molecular structure. On the other hand, when PS is terminated by silyl methyl sulfonate, or -Si(CH(3))(2)-(CH(2))(3)-O-SO(2)-CH(3), the most characteristic fragment in the fingerprint secondary ion mass spectrum is located at m/z 153 with [Si(CH(3))(2)-O-SO(2)-CH(3)](+) and the complete end group peak, [Si(CH(3))(2)-(CH(2))(3)-O-SO(2)-CH(3)](+), at m/z 201, is absent. According to the molecular structure, characteristic end group secondary ions can be emitted as complete or rearranged fragments. Various silylalkyl alcohol or sulfonate functionalities are analyzed and fragmentation pathways are discussed. To our knowledge, this is the first time that such rearrangement at silyl functions has been observed and demonstrated in fingerprint secondary ion mass spectra. Copyright 1999 John Wiley & Sons, Ltd.     

Analysis of dammar resin with MALDI-FT-ICR-MS and APCI-FT-ICR-MS

Comprehensive analysis of high-resolution mass spectra of aged natural dammar resin obtained with Fourier transform ion cyclotron resonance mass spectrometer (FT-ICR-MS) using matrix-assisted laser desorption/ionization (MALDI) and atmospheric pressure chemical ionization (APCI) is presented. Dammar resin is one of the most important components of painting varnishes. Dammar resin is a terpenoid resin (dominated by triterpenoids) with intrinsically very complex composition. This complexity further increases with aging. Ten different solvents and two-component solvent mixtures were tested for sample preparation. The most suitable solvent mixtures for the MALDI-FT-ICR-MS analysis were dichloromethane-acetone and dichloromethane-ethanol. The obtained MALDI-FTMS mass spectrum contains nine clusters of peaks in the m/z range of 420-2200, and the obtained APCI-FTMS mass spectrum contains three clusters of peaks in the m/z range of 380-910. The peaks in the clusters correspond to the oxygenated derivatives of terpenoids differing by the number of C(15)H(24) units. The clusters, in turn, are composed of subclusters differing by the number of oxygen atoms in the molecules. Thorough analysis and identification of the components (or groups of components) by their accurate m/z ratios was carried out, and molecular formulas (elemental compositions) of all major peaks in the MALDI-FTMS and APCI-FTMS spectra were identified (and groups of possible isomeric compounds were proposed). In the MALDI-FTMS and APCI-FTMS mass spectrum, besides the oxidized C(30), triterpenoids also peaks corresponding to C(29) and C(31) derivatives of triterpenoids (demethylated and methylated, correspondingly) were detected. MALDI and APCI are complementary ionization sources for the analysis of natural dammar resin. In the MALDI source, preferably polar (extensively oxidized) components of the resin are ionized (mostly as Na(+) adducts), whereas in the APCI source, preferably nonpolar (hydrocarbon and slightly oxidized) compounds are ionized (by protonation). Either of the two ionization methods, when used alone, gives an incomplete picture of the dammar resin composition.