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1.
随着固体NMR理论和谱仪硬件技术的不断发展,近年来固体NMR技术在高分子多尺度结构与动力学研究领域中正发挥着越来越重要的作用. 多脉冲及高速魔角旋转(MAS)等质子高分辨技术的发展使得高灵敏度的1H谱可有效地用于高分子化学结构与链间相互作用的检测;基于化学键(J-耦合)相关和通过空间(偶极耦合)相互作用的各种二维异核相关谱NMR新技术,使得复杂高分子的链结构得以严格解析. 基于MAS下同核和异核偶极-偶极相互作用、化学位移各向异性等各向异性相互作用重聚的系列新技术,使得研究者可在采用高分辨1H或13C 检测信号的同时检测准静态下的各向异性相互作用,进而获得与之密切相关的结构和动力学信息. 通过质子偶极滤波技术可有效检测多相聚合物中的界面相与相区尺寸、高分子共混物中的相容性等问题. 在动力学的研究中,通过质子间自旋扩散的有效压制技术和化学位移各向异性的重聚,目前已经可以有效地获取链段上单个化学键的快速局域运动以及链段的超慢分子运动. 上述丰富的多尺度NMR技术可以使研究者在不同空间和时间尺度上对高分子聚合物的微观结构、相分离和动力学行为等进行详细的研究,进而阐明高分子微观结构与宏观性能的关联. 该文以固体NMR中最主要的2类核(1H和13C)的检测技术为主线,简单介绍近年来固体NMR领域的一些最新研究进展及其在高分子结构和动力学研究中的应用.  相似文献   

2.
报道标题化合物的NMR谱,利用1H,13C NMR和DEPT等技术确定新化合物的化学结构,并归属了所有质子和碳的化学位移.  相似文献   

3.
碳负极材料作为锂/钠离子电池的传统负极材料一直获得广泛的推广和应用,但其仍存在充电时间长、库伦效率低等问题,研究碳负极材料充放电机理是解决这些问题的关键.固体核磁共振(NMR)技术是一种研究固体材料中目标原子所处化学环境以及材料内部结构变化的有效手段.通过测定锂/钠离子电池中6Li、7Li和23Na高速魔角旋转(MAS)条件下的固体NMR谱图,能够清晰获得锂/钠离子电池碳负极脱/嵌过程中的结构变化,以及碳原子与Li/Na的配位情况,从而为碳负极材料的设计及其电化学性能的提升提供充分的理论依据.本文综述了近年来固体NMR技术在锂/钠离子电池碳负极材料研究中的应用以及相关研究进展.  相似文献   

4.
哌嗪雌酚酮的结构研究   总被引:3,自引:0,他引:3  
哌嗪雌酚酮是一种可望用于骨质疏松症的雌激素类防治药物. 文中采用IR、MS、NMR 等波谱技术,特别是1H-1H COSY、HMQC和HMBC谱等2D NMR技术, 确定了它的氢谱和碳谱的信号归属,对它的结构进行了确证.  相似文献   

5.
采用2D NMR技术对阿德福韦酯的氢谱和碳谱进行了全归属。对其结构进行确定,用于质量标准研究。  相似文献   

6.
报道了一种热转印色带用黄染料的1H、13C NMR , 应用1H NMR、13C NMR、定量碳谱、DEPT、1H-1H COSY、HMQC、HMBC等确定了其在氘代氯仿中的分子结构, 并对全部谱峰进行了归属, 探索了黄染料在氘代氯仿中的结构对13C、1H NMR谱图化学位移及谱峰裂分的影响.   相似文献   

7.
研究了最近合成的5种α-萘乙酰芳胺新化合物. 通过测定5种新化合物的13C NMR和DEPT谱等,对其结构进行了确定,并对其全部谱峰做出归属;同时,讨论了化学位移与分子结构间的一些关系.  相似文献   

8.
吴帆  彭朴 《波谱学杂志》1996,13(4):393-402
以Sadtler标准NMR谱图集为数据源.建立了烃类化合物NMR谱化学位移数据库系统,并利用此数据库系统归纳出了烃类化合物各类碳氢原子族化学位移统计分布图,该统计分布图可用于指导烃类混合物.特别是石油产品NMR谱峰的归属,同时,可提供一条查阅标准图的简捷途径.  相似文献   

9.
对12例直肠组织的红外光谱图进行了测定,并对6例直肠癌变及正常组织的固体1H和31P NMR谱与另外6例直肠癌变及正常组织的液体1H和31P-NMR谱进行研究.结果表明,(1)直肠癌变和正常组织的红外光谱中存在明显差异.(2)在固体1H和31P NMR谱中,1H NMR谱上癌组织的脂肪酸与水相关的特征峰面积的比值I(5+6+7)/I(1+2+3+4)明显变低,依据I(5+6+7)/I(1+2+3+4)比值可区分癌变与正常组织.31P NMR谱上,癌变组织的最强峰的化学位移明显向高场偏移.(3)在液体1H和31P NMR谱中,1H NMR谱上癌组织中3.20处峰强较正常组织高,表明与癌变密切相关的胆碱类化合物包括游离的胆碱、磷酸胆碱及甘油磷酸胆碱等的量增大.31P NMR谱上,癌变组织的强度最大峰的化学位移分别为1.18,1.26,1.29,1.37,正常组织的化学位移为1.70和2.18,癌变组织的强度最大峰的化学位移明显向高场偏移.通过癌变与正常组织代谢物1H NMR谱峰强度和1P NMR谱峰化学位移的差异,可以区分直肠癌变和正常组织,核磁共振1H和31P NMR谱技术可能发展成为一种诊断直肠癌的新方法.  相似文献   

10.
二蕊荷莲豆环肽B的NMR应用研究   总被引:6,自引:1,他引:5  
植物环肽的1H 和13C NMR图谱, 由于各种氨基酸自旋系统质子和碳的化学位移非常接近,谱峰高度重叠,结构解析比较困难. 文中以二蕊荷莲豆环肽B为例讨论了
现代2D NMR新技术,在植物环肽结构解析中的应用. HMQC-TOCSY图谱在氢谱方向和碳谱方向分别提供每一个氨基酸自旋系统内的氢和除季碳外碳的全相关信息,从而将每个氨基酸残基的NMR信号相互区分开来;结合1H-1H COSY 和 HMQC或HSQC图谱,就可以准确归属每个氨基酸的氢和碳的化学位移. 氨基酸残基之间的连接顺序可用HMBC、NOESY或ROESY图谱获得.  相似文献   

11.
Multiple pulse line narrowing techniques can be used to improve resolution and sensitivity in solid state NMR imaging. For example, pulse sequences which remove homonuclear dipolar broadening have been used to image proton-containing materials. Further enhancements in resolution and sensitivity are obtained by removing inhomogeneous interactions such as chemical shift, susceptibility, and heteronuclear dipolar broadening. Pulse sequences have been designed which provide efficient line narrowing over large spectral widths by taking into account the experimenter's control over the amplitude and time dependence of the gradient-induced resonance offset. These methods have been applied to centimeter sized samples to obtain images of polymers, composite materials, and gas-solid chemical reactions. T1 and T2 contrast allows differentiation between materials.  相似文献   

12.
Limitations of resolution and absorption in standard chemical spectroscopic techniques have made it difficult to study fluids in sedimentary rocks. In this paper, we show that a chemical characterization of pore fluids may be obtainedin situby magic angle spinning (MAS) nuclear magnetic resonance (NMR), which is normally used for solid samples.1H MAS–NMR spectra of water and crude oil in Berea sandstone show sufficient chemical shift resolution for a straightforward determination of the oil/water ratio.  相似文献   

13.
Free induction decay (FID) signals in solid state NMR measurements performed with magic angle spinning can often be extended in time by factors on the order of 10 by a simple pulsed spin locking technique. The sensitivity of a structural measurement in which the structural information is contained in the dependence of the integrated FID amplitude on a preceding evolution period can therefore be enhanced substantially by pulsed spin locking in the signal detection period. We demonstrate sensitivity enhancements in a variety of solid state NMR techniques that are applicable to selectively isotopically labeled samples, including 13C-15N rotational echo double resonance (REDOR), 13C-13C dipolar recoupling measurements using the constant-time finite-pulse radio-frequency-driven recoupling (fpRFDR-CT) and constant-time double-quantum-filtered dipolar recoupling (CTDQFD) techniques, and torsion angle measurements using the double quantum chemical shift anisotropy (DQCSA) technique. Further, we demonstrate that the structural information in the solid state NMR data is not distorted by pulsed spin locking in the detection period.  相似文献   

14.
Many novel proton conducting materials are based on complex hydrogen bonding networks of amphoteric hydrogen bonded moieties. Solid state NMR provides unique methods to study the properties of such network and specific proton conduction mechanisms in detail. In particular 1H solid state NMR techniques under fast magic angle spinning are powerful tools in this area. Site specific studies of the dynamic behavior via variable temperature 1H MAS measurements provide insight in the thermodynamics of the hydrogen bonding as well as activation energies for the proton transfer between the amphoteric sites. On macroscopic length scales, pulsed field gradient NMR experiments are able to determine the proton mobility and the contribution of different conduction mechanisms. In this article, aspects of recent solid state NMR studies in the field are reviewed and typical experimental methods as well as their possible outcome are discussed.  相似文献   

15.
Magic-angle-spinning (MAS) high-power 1H-decoupled 13C and 31P NMR has been applied to solid biological materials to obtain information about the mechanisms that determine the spectral linewidths. The line broadening in MAS 31P NMR spectra of solid tobacco mosaic virus (TMV) has been investigated by selective saturation and T2 measurements. About 90 Hz stems from homogeneous effects, whereas the inhomogeneous contribution is approximately 100 Hz. The inhomogeneous line broadening is assigned to macroscopic inhomogeneities in the sample and not to variations in the nucleotide bases along the RNA strand in TMV. It is concluded that sample preparation is of vital importance for obtaining well-resolved spectra. Under optimal preparation techniques the isotropic values of the chemical shift of the different 31P sites have been determined to obtain information about the secondary structure of the viral RNA. The chemical shift anisotropy has been determined from the relative intensities of the spinning side bands in the spectra. The chemical shift information is used to make a tentative assignment of the resonance in terms of the three structurally distinguishable phosphate groups in TMV. The origin of the linewidths in MAS NMR has been examined further by 13C NMR of approximately 10% 13C-enriched coat protein of cowpea chlorotic mottle virus, using selective excitation and saturation techniques, as well as measurements of the relaxation times T1γ and T2. The CO resonance in the spectrum is composed of an inhomogeneous and homogeneous part with a total linewidth of 700 Hz. The homogeneous linewidth, contributing with 200 Hz, is found to arise from slow molecular motions in the solid on a millisecond timescale.  相似文献   

16.
多金属氧酸盐(简称多酸,Polyoxometalates,POMs)是由处于d0电子构型的前过渡金属元素通过共边或共角缩聚而成的金属-氧簇类化合物.由于其具有丰富的分子结构和独特的物理化学性质,已经被广泛应用于功能材料、催化化学和药物化学等领域.其中钒取代的多酸阴离子具有很好的催化活性,特别是对烃类的氧化,它的活性主要受钒取代的数目和钒中心的阴离子环境这两个因素影响.该文利用固体核磁技术分析了一取代钒的两类典型结构中51V的局域结构和化学环境,以及有机阳离子对多酸阴离子结构的影响,特别是对51V的化学环境的影响,为研究多酸的催化活性和催化机理提供基本的结构信息.  相似文献   

17.
Thermal vacancy concentrations in solid 3He have been directly measured by x-rays over a wide range of molar volumes in the bcc phase and one molar volume in the hcp phase. Values of the vacancy free energies and free volumes of formation have been obtained, and comparison with NMR and ultrasonic studies yields information about vacancy motion in the two phases of the solid.  相似文献   

18.
食品质量与安全的检测分析关乎人们生命健康,高效可靠的检测手段是该领域研究的必需条件.磁共振技术,包括核磁共振(NMR)和磁共振成像(MRI),是20世纪的新兴的食品检测技术.由于该技术对样品几乎无破坏性,且具有可实时快速测量、可同时检测多成分、可获得样品内部图像等优点,因此在食品检测领域的应用越来越多.为了促进该技术在食品科学领域更为深入的应用,该文对磁共振技术在国内外食品质量和安全研究领域的应用现状进行了总结.  相似文献   

19.
High and low resolution solid state NMR methods have been applied to characterise a few samples of ancient wood. In an ancient larch wood sample, by applying 1H low resolution NMR methods as a function of the temperature, the average pore size and its distribution have been determined. In addition, high resolution NMR techniques have allowed addressing of the question of the proximity of water pools to cellulose and lignin. In particular, a model can be hypothesized in which water pools are surrounded by thin layers of amorphous cellulose and/or lignin while the crystalline domains of cellulose surround the layers of amorphous cellulose. Preliminary results obtained using a fully non invasive and portable NMR unilateral relaxometer, the Eureka-Mouse10 (EM10), are reported. This instrumentation is shown to be perfectly suitable for characterizing degradation in ancient wood samples. PACS 76.60 k  相似文献   

20.
Further progress in the field of heterogeneous catalysis depends on our knowledge of the nature and behavior of surface sites on solid catalysts and of the mechanisms of chemical reactions catalyzed by these materials. In the past decades, solid-state NMR spectroscopy has been developed to an important tool for routine characterization of solid catalysts. The present work gives a review on experimental approaches and applications of solid-state NMR spectroscopy for investigating Brønsted and Lewis sites on solid acids. Studies focusing on the generation of surface sites via post-synthesis modification routes of microporous and mesoporous materials support the development of new and the improvement of existing catalyst systems. High-temperature and flow techniques of in situ solid-state NMR spectroscopy allow a deeper insight into the mechanisms of heterogeneously catalyzed reactions and open the way for studying the activity of acidic surface sites. They help to clarify the activation of reactants on Brønsted and Lewis acid sites and improve our understanding of mechanisms affecting the selectivity of acid-catalyzed reactions.  相似文献   

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