丙酮肟与某些芳烃相互作用的1H核磁共振研究

~1H NMR spectra of acetoxime have been measured as a function of the mole fraction of certain aromatic hydrocarbons in mixed solvent of CCl_4 and benzene or toluene. It has been found that the chemical shifts of the two methyl groups in acetoxime and of benzene or toluene move upfield gradually in the mixed solvent as the mole fraction of aromatic component increases. The moving rate of the resonance absorption line of the two methyl groups in acetoxime are different. The △δ of β-CH_3 is larger than that of α-CH_3. The absorption line of the two methyl groups is a singlet in CCl_4 and splits to a doublet when the concentration of benzene or toluene in the solvent is higher than 30% (mole/mole). The experimental results also show that the extent of upfield shifts of either the methyl groups in acetoxime or the aromatic hydrogens are reduced when a hydrogen of benzene is substituted by methyl group. All of the chemical shifts can be correlated with a linear equation as δ=A+Bx, Where, x is the mole fraction of benzene or toluene in the mixed solvent. The correlation coefficients R are approximately equal to -1.     

顺磁性镧系金属有机配合物的~1H核磁共振研究

顺磁类的核磁共振研究大多是简单化合物,偏重理论方面的研究,对镧系配合物曾有报道。由于这类样品对空气和湿气极为敏感,在国内外研究顺磁性~1H谱甚少。本文研究了含氯桥的醚基取代环戊二烯镧系配合物二聚体的~1H化学位移,线宽,弛豫时间T_1和磁化率,从中找出了顺磁类有机镧系配合物~1H NMR的规律。     

氮杂菲及其10-取代衍生物的~1H及~(13)C核磁共振谱

本文测定并研究了氮杂菲和它的10-羟基,7,9-二溴-10-羟基,7,9-二氯-10-羟基,10-乙酰基,10-甲氧基衍生物的~1H及~(13)C NMR谱。在XL-200型仪器上使用标准的FT技术、分辨率增强和自旋模拟法,识别了~1H和~(13)C谱峰,测得J_(HH)。氮杂菲的10-H显著去屏蔽。当忽略10-H时,δ_O和δ_H相关很好。还测得氮杂菲~(13)C的T_1值。     

^3H—^1H化学位移相关NMR谱介绍

氚标记对于代谢和受体结合研究是一个重要的工具。然而确定其氚标记在化合物中的位置和相对强度对此研究至关重要。由于~3H的化学位移与的~1H 化学位移几乎相等,可将文     

1H—NMR谱的化学位移与芳烃亲电取代反应定位效应

在芳烃亲电取代反应中,取代基的定位效应是有机化学工作者普遍关心的问题。从本世纪初就开始研究苯环上取代基对芳烃亲电取代反应定位效应的影响,根据反应中取代产物的     

~1H和~(19)F NMR研究镍系催化丁二烯聚合中醇类对BF_3·OEt_2的增溶作用

<正> 在镍系催化丁二烯聚合中,助催化剂BF_3·OEt_2在加氢汽油中溶解性差,往往形成非均相体系,因而降低了催化剂体系的稳定性和氟的利用率。我们曾研究了A1(i-Bu)_3分别与丙醇、丁醇、戊醇,己醇、辛醇、壬醇、癸醇和十六醇按等摩尔交换,制得A1(i-Bu)_2OR作助催化剂,观察Al/B与催化活性的关系,发现以十六醇为最好,Al/B在0.25—0.95聚合活性较高,超出此限活性迅速下降。为了进一步提高Al/B,采用了向镍催化体系添加醇的方法。聚合实验证实了该法可提高氟的利用率。测定醇-硼体系的~1HNMR,证实了醇-硼分子间形成了氟-氢氢键。     

~1H NMR谱中质子的化学等价性和磁等价性问题探讨

对1H NMR谱中质子的化学等价性和磁等价性问题进行了探讨,介绍了其意义和比较简便的判断方法,通过实例指出了该部分内容教学中容易忽视的一些问题。     

用~1H NMR作石油重质油结构分析中芳香度f_a计算公式推导及经验式

报道了~1H NMR作石油重质油结构分析中芳香度f_n的计算公式,并用文献数据和~1H NMR实验作了验证、推荐了几个分别适合柴油、蜡油、常渣和减渣馏份f_n的经验公式。     

仲碳伯胺萃取铈(Ⅳ)机理的~1H,~(15)N核磁共振谱研究

仲碳伯胺N_(1923)萃取铈(Ⅳ)的~1H,~(15)N-NMR研究表明,在萃取铈(Ⅳ)时也同时萃取H_2O和H_2SO_4进入有机相,当铈(Ⅳ)浓度较高时,铈(Ⅳ)与N_(1923)生成配合物。     

基于LFHB 理论模型关联和预测醇+惰性溶剂的1H NMR 化学位移

运用含氢键缔合的格子流体状态方程(LFHB), 仅用一个参数关联了一元醇-惰性溶剂共17个体系29套1H NMR化学位移数据. 并且用关联参数成功预测了不同温度下丁醇+环己烷的化学位移. 所得结果与化学缔合理论的结果进行了比较. 对于某些体系在稀浓度范围LFHB的计算氢键缔合度要低于化学缔合理论的结果. 并且分析了LFHB理论中的物理参数和化学参数对于缔合度计算的不同影响.     

研究塑性有机固体的1H NMR方法

塑性有机固体的＾１Ｈ ＭＡＳ ＮＭＲ谱通常由一高分辨谱与一宽线谱组成，其中高分辨谱分量对应于塑性相，而宽线谱分量对应于刚性相。长延迟回波－ＭＡＳ ＮＭＲ实验可测得塑性相的高分辨谱，ＣＲＡＭＰＳ方法可测得整个固体＾１Ｈ体系的高分辨谱，常温下它往往以刚性相的贡献为主要成分。实验结果表明，结合＾１Ｈ ＭＡＳ、回波－ＭＡＳ与ＣＲＡＭＰＳ等三种固态高分辨＾１Ｈ ＮＭＲ技术可望成为深入研究塑性有机固体中塑性相     

1H chemical shifts in NMR: Part 23, the effect of dimethyl sulphoxide versus chloroform solvent on 1H chemical shifts

The 1H chemical shifts of 124 compounds containing a variety of functional groups have been recorded in CDCl3 and DMSO-d6 (henceforth DMSO) solvents. The 1H solvent shift Delta delta = delta(DMSO) - delta(CDCl3) varies from -0.3 to +4.6 ppm. This solvent shift can be accurately predicted (rms error 0.05 ppm) using the charge model of alpha, beta, gamma and long-range contributions. The labile protons of alcohols, acids, amines and amides give both, the largest solvent shifts and the largest errors. The contributions for the various groups are tabulated and it is shown that for H.C.C.X gamma-effects (X = OH, NH, =O, NH.CO) there is a dihedral angle dependence of the gamma-effect. The group contributions are discussed in terms of the possible solvent-solute interactions. For protic hydrogens, hydrogen bonding is the dominant interaction, but for the remaining protons solvent anisotropy and electric field effects appear to be the major factors.     

四取代酞菁金属配合物异构体~1HNMR的表征

概述了近年来用1 HNMR表征一些四取代酞菁金属配合物异构体的研究进展情况。四取代酞菁配合物存在 4种异构体和 8种磁不等价的异吲哚基。这些磁不等价的异吲哚基对苯环上以及取代基的质子的1 HNMR谱均有所影响 ,因此可以通过测定这些质子的1 HNMR谱来确定异构体。     

某些氚标记杂环化合物的~3H NMR研究

本文介绍了应用液-液催化、氢-氚交换法制备某些氚标记杂环化合物。采用PtO_2作为催化剂,选用含有杂氮原子的、杂氮和杂硫原子的、杂氧原子的十二种化合物作为研究对象,并用~3H NMR研究了氚在这些杂环化合物中的位置以及它在分于中的相对丰度,得到了满意的氚渗入结果。     

双氢埃托啡的^1H, ^1^3C NMR和立体化学

双氢埃托啡(1)为合成的高效镇痛剂。药理实验结果表示,其镇痛作用优于吗啡。该化合物的~1H和~(13)C NMR谱都较为复杂,尚未见报道,并且多数谱峰采用一般方法难以指定。     

某些萃取剂与C6—C9芳烃相互作用的1H NMR研究

以四氯化碳作为惰性参考溶剂, 研究了N-甲基-2-吡咯烷酮(NMP)、环丁砜、N,N-二甲基甲酰胺(DMF)、N,N-二甲基乙酰胺(DMA)和γ-丁内酯(γ-BL)等五种萃取剂在几种芳烃溶剂中的~1H NMR谱。观察到萃取剂分子的化学位移在芳烃溶剂中均大幅度移向高场, 且NMP、γ-BL的共振谱线在芳烃中发生分裂或重叠。在不同的芳烃溶剂中, 以在苯乙烯中NMP、DMF、DMA、环丁砜共振谱线的移动幅度为最大。各萃取剂谱线位移的幅度随着苯环上甲基数目的增多而递减。结合溶液热力学的结果, 推断出NMP等萃取剂和芳烃分子之间存在着弱化学作用。     

用固体~1H MAS NMR研究水在不同吸附质中的状态

应用固体1H MAS NMR实验技术,根据核磁共振峰线宽的不同,表征了水在不同吸附质中的微观状态。在含水的壳聚糖和明胶中,以氢键形式存在的水的共振峰线宽为2000Hz左右。在含水分子筛和含水硅胶中存在的吸附水的共振峰线宽在1000Hz左右。而自由水的核磁共振峰线宽小于3Hz。     

1H NMR spectra part 31: 1H chemical shifts of amides in DMSO solvent

The ¹H chemical shifts of 48 amides in DMSO solvent are assigned and presented. The solvent shifts Δδ (DMSO‐CDCl₃) are large (1–2 ppm) for the NH protons but smaller and negative (?0.1 to ?0.2 ppm) for close range protons. A selection of the observed solvent shifts is compared with calculated shifts from the present model and from GIAO calculations. Those for the NH protons agree with both calculations, but other solvent shifts such as Δδ(CHO) are not well reproduced by the GIAO calculations. The ¹H chemical shifts of the amides in DMSO were analysed using a functional approach for near ( ≤ 3 bonds removed) protons and the electric field, magnetic anisotropy and steric effect of the amide group for more distant protons. The chemical shifts of the NH protons of acetanilide and benzamide vary linearly with the π density on the αN and βC atoms, respectively. The C=O anisotropy and steric effect are in general little changed from the values in CDCl₃. The effects of substituents F, Cl, Me on the NH proton shifts are reproduced. The electric field coefficient for the protons in DMSO is 90% of that in CDCl₃. There is no steric effect of the C=O oxygen on the NH proton in an NH…O=C hydrogen bond. The observed deshielding is due to the electric field effect. The calculated chemical shifts agree well with the observed shifts (RMS error of 0.106 ppm for the data set of 257 entries). Copyright © 2014 John Wiley & Sons, Ltd.