Use of Magic Angle Spinning ~1H NMR Spectroscopy to Monitor Reactions in Solid-Phase Synthesis

Proton NMR-spectra of Wang resin bound compounds were obtained using the magic angle spinning 1HNMR technique with standard equipment. It was possible to analyse the spectra to evaluate their utility in solid-phase chernistry. A typical example was presented, which could directly monitor solid-phase reactions

Solid-state NMR studies of proteins in condensed phases

Some proteins perform their biological functions by changing their material states through liquid-liquid phase separation.Upon phase separation,the protein condenses into a concentrated liquid phase and sometimes into a gel phase,changing its dynamic properties and intermolecular interactions,thereby regulating cellular functions.Although the biological significance of this phenomenon has been widely recognized by researchers,there is still a lack of a comprehensive understanding of the structural and dynamic properties of the protein in the condensed phase.In this phase,molecules usually contain domains with varied dynamic properties and undergo intermediate exchanges.Magic angle spinning(MAS)solid-state NMR(SSNMR)experiments are very powerful in studying rigid protein polymers such as amyloid.The incorporation of solution-like experiments into SSNMR and the development of J-coupling based MAS SSNMR techniques extend its ability to study partially mobile segments of proteins in a condensed liquid or gel phase which are not visible by solution NMR or dipolar-coupling based SSNMR.Therefore,it has been applied in studying protein condensation and has provided very important information that is hard to obtain by other techniques.

Heteronuclear-filtered ^(1)H homonuclear multi-quantum correlation experiment at 100 kHz magic-angle spinning Dedicated to Professor Chaohui Ye on the occasion of his 80th birthday

Remarkable advances in fast magic-angle spinning(MAS)techniques significantly improve the resolution of^(1)H solid-state nuclear magnetic resonance(NMR)spectra.Here,we introduce a heteronuclear-filtered^(1)H homonuclear multi-quantum(MQ)correlation strategy available at a MAS rate of 100 kHz by combining^(1)H{X}heteronuclear-filtered methods and^(1)H homonuclear MQ correlation experiments.The proposed strategy was applied to selectively extract^(1)H signals of aluminum lactate(Al-Lac)in a mixture of Al-Lac and zinc lactate(Zn-Lac)using 27Al-filtered methods(i.e.,^(1)H{27Al}heteronuclear multiple quantum correlation(HMQC)or^(1)H{27Al}symmetry-based resonance-echo saturationpulse double-resonance(S-RESPDOR)).We demonstrate that incorporating these 27Al-filtered methods into two-dimensional(2D)^(1)He^(1)H double-quantum(DQ)/single-quantum(SQ),triple-quantum(TQ)/SQ,and even three-dimensional(3D)27Al/^(1)H(DQ)/^(1)H(SQ)experiments can facilitate the acquisition of spectra without signal overlap and targeted characterization of the^(1)H species surrounding 27Al sites.The proposed strategy is considered to efficiently extract key structural information from complex spin systems.

Solid State NMR Study of Polystyrene Nanolatex Particles(I) ^(13)C Spin-Lattice Relaxation Time

C spin-lattice relaxtion times for polystyrene nanolatex particles have been investigated. It was found that the dramatic increase at 80℃ annealing temperature is well below the Tg temperature of bulk polystyrene, the increase of relaxation time of aromatic carbons is larger than that of for aliphatic carbons at transition annealing temperature.

SOLID-STATE HIGH RESOLUTION NMR STUDY ON POLY (2, 6-DIMETHYL-1,4-PHENYLENE OXIDE)

Experiments including C-13 spin-lattice relaxation, C-13 heteronuclear dipolar dephasing and H-1 spin diffusion are performed on poly (2,6-dimethyl-1,4-phenylene oxide) (PPO). The results show that the rotation of the methyl groups in solid PPO is partially restricted, which results in a surprisingly efficient spin diffusion between the aromatic proton and methyl proton characterized by a diffusion time of 150 mu s. The results also show that the aromatic ring in solid PPO is rigid and twisted, which causes all aromatic carbons to be chemically unequivalent.

Applications of Floquet-Magnus and Fer Expansion Approaches during Cross Polarization Radiation in Solid State NMR

This paper investigates the concept of Cross Polarization (CP) experiment in addition to revisiting the two potential expansion schemes recently developed in the field of solid-state nuclear magnetic resonance (SSNMR): namely, the Floquet-Magnus expansion and the Fer expansion. We use the aforementioned expansion schemes for the calculation of effective Hamiltonians and propagators when the spin system undergoes Cross Polarization radiation. CP is the gateway experiment into SSNMR. An in-depth comprehension of the underlying mechanics of spin dynamics during the cross-polarization experiment is pivotal for further experimental developments and optimization of more complex solid-state NMR experiments. The main contribution of this work is a prospect related to spin physics;particularly regarding to generalization of the calculation. This work reports original yet interesting novel ideas and developments that include calculations performed on the CP experiment. In fact, the approach presented could play a major role in the interpretation of several fine NMR experiments in solids, which would in turn provide significant new insights in spin physics. The generality of the work points towards potential applications in problems related in solid-state NMR and theoretical developments of spectroscopy as well as interdisciplinary research areas as long as they include spin dynamics concepts.

Investigation of Li-ion transport in Li7P3S11 and solid-state lithium batteries

The high Li-ion conductivity of the Li7P3S11 sulfide-based solid electrolyte makes it a promising candidate for all-solid-state lithium batteries. The Li-ion transport over electrode-electrolyte and electrolyteelectrolyte interfaces, vital for the performance of solid-state batteries, is investigated by impedance spectroscopy and solid-state NMR experiments. An all-solid-state Li-ion battery is assembled with the Li7P3S11 electrolyte, nano-Li2S cathode and Li-In foil anode, showing a relatively large initial discharge capacity of 1139.5 m Ah/g at a current density of 0.064 m A/cm^ 2 retaining 850.0 m Ah/g after 30 cycles. Electrochemical impedance spectroscopy suggests that the decrease in capacity over cycling is due to the increased interfacial resistance between the electrode and the electrolyte. 1D exchange ^7Li NMR quantifies the interfacial Li-ion transport between the uncycled electrode and the electrolyte, resulting in a diffusion coefficient of 1.70(3) ×10^-14cm^2/s at 333 K and an energy barrier of 0.132 e V for the Li-ion transport between Li2S cathode and Li7P3S11 electrolyte. This indicates that the barrier for Li-ion transport over the electrode-electrolyte interface is small. However, the small diffusion coefficient for Li-ion diffusion between the Li2S and the Li7P3S11 suggests that these contact interfaces between electrode and electrolyte are relatively scarce, challenging the performance of these solid-state batteries.

高速魔角旋转下基于组合π脉冲的射频驱动重耦同核双量子固体NMR相关实验研究

该文提出了一种改进固体核磁共振(NMR)实验中射频驱动重耦(RFDR)序列的方法。以组合π脉冲替代传统的单一矩形π脉冲作为RFDR序列的基本构成单元,并选择若干个适用于高速魔角旋转条件的组合π脉冲,在RFDR双量子实验中进行全面研究,通过数值模拟分析了影响RFDR双量子实验性能的两个关键因素——共振偏置和射频场不均匀性,并根据模拟结果确定了性能最优的组合π脉冲。结合六氟硅酸钠和L-组氨酸的一维和二维^(19)F或1H固体NMR实验,验证了在高速魔角旋转条件下选择适当的组合π脉冲的RFDR序列的优势。该方法不仅能确保较高的同核双量子激发效率,还能提高激发带宽,并且对射频场不均匀性更加不敏感。稳定高效的RFDR同核双量子相关实验为采用固体NMR分析强自旋耦合体系的核间相互作用提供了重要的技术支持。

高岭石—莫来石反应系列:^(27)Al和^(29)SiMASNMR研究

根据对我国八个不同成因和特征的高岭土样品在450～1450℃热处理产物的MASNMR谱和XRD、IR、DTA等研究结果，结合有关资料讨论了高岭石-莫来石反应序列的几个重要问题：①变高岭石的结构，尤其是五配位铝；②980℃放热峰后的高温相是γ－AlO3而不是Al－Si尖晶石;③对于莫来石化过程，认为初始莫来石在850～950℃变高岭石形成，二次莫来石由分凝的SiO2T和γ－Al2O3在1200～1300℃反应形成。

三元硅酸盐玻璃相中Al^(3+)离子结构状态的MAS NMR谱研究

采用魔角旋转核磁共振谱 (MASNMR)技术对CaO Al2 O3 SiO2 三元铝硅酸盐玻璃 (简称CAS)中Al3+离子的占位进行了系统的定量研究 ,获得下列结论 :1 .Al3+在硅酸盐熔体中 ,大部分进入四面体替代 [SiO4]4- 中的Si,成为网络形成子 .另有小部分Al3+在网络骨架之间 ,以六配位、五配位和其他配位形式成为网络的修饰子 .2 .设 η =N(Al3+IV) /N(ΣAl) ,即考察区域内 ,四配位Al3+离子数与全部Al3+离子数之比 .设γ =N(ΣAl) /N(ΣSi) ,即考察区域内全部Al3+离子数与全部Si4+离子数之比 .则单位四面体的非桥氧数 (Onb/T)与 η成反比 .对于不同的γ值 ,Onb/T下降的速率不同 .γ值越大 ,下降的速率也越大 .

煅烧高岭土的NMR研究

采用29Si、27AlMASNMR谱对不同产地高岭在同一煅烧温度及同一产地高岭土在不同煅烧温度的煅烧产物进行了研究.实验结果表明:不同产地高岭土在同一煅烧温度煅烧产物的29SiMASNMR相似,27AlMASNMR谱有所区别,煅烧温度对煅烧产物的29Si、27AlMASNMR有一定影响.

稀土掺杂硼铝硅酸盐玻璃结构的NMR研究

在Sm2O3掺杂BaOB2O3Al2O3SiO2Sm2O3(BBASS)玻璃系统的形成性能研究的基础上,借助MASNMR以及差热测试(DTA)技术,研究了玻璃的结构特点以及玻璃组成、热处理条件等因素对玻璃结构的影响.研究表明,在未掺稀土的BBAS玻璃结构中,硼氧多面体主要以[BO3]、[BO4]存在,铝氧多面体主要以[AlO4]、[AlO5]、[AlO6]存在;随着BBAS中BaO含量的增加,硼氧三角体[BO3]逐渐向[BO4]转变,原先[AlO4]、[AlO5]、[AlO6]共存的铝氧多面体结构逐渐转变为大量[AlO4]和少量[AlO5]共存的结构;稀土Sm3+具有较强的积聚作用,其能促使玻璃结构中的硼氧多面体形成巨大的网络结构;热处理对玻璃结构中硼氧多面体和铝氧多面体的配位结构影响不大.

HR/MAS高分辨魔角微量探头用于天然橡胶固体~1H、^(13)C NMR测试及其与液体BBO探头、固体CP/MAS探头测试的比较

采用BRUKER高分辨魔角微量探头 (HR/MAS) ,液相宽带BBO探头和固体CP/MAS探头 ,对天然橡胶固体、乳液以及天然橡胶溶于氘代苯的溶液进行了1 H、1 3C 1D和 2DNMR谱的测试和比较 .发现HR/MAS探头用于天然橡胶固体和乳液时可以得到高分辨的1 H、1 3C谱 ,克服了CP/MAS探头测试固体1 3CNMR谱或者是固体1 HNMR谱时 ,谱图存在S/N值可能较小。

固体高分辨^(13)C NMR研究γ线辐照对结晶聚乙稀聚集态结构的影响

结晶聚乙烯(PE)经^(60)Coγ线辐照后,用固体高分辨^(13)C NMR CP/DD/MAS方法观测解析了辐射效果与具有片晶结构的结晶相,结晶—橡胶状无定形界面相以及橡胶状无定形相的聚集态结构的关系。考察了各相中的^(13)C核自旋—晶格弛豫和自旋-自旋弛豫行为及辐照对其影响。得到辐照后产生交联,破坏,相转变及晶型变化等有意义的结果,对PE的辐照效应和机制的探讨提供了核磁共振的新实验证据。

固体1H-NMR表征玻璃态高分子链的缠结、互穿及链间邻近度

系统回顾了缠结定义的演化及对其表征的各种方法,比较了这些方法的特点和不足.在以往研究的基础上,发展了一套在分子尺度上表征玻璃态高分子链互穿的方法.该方法结合高速魔角和偶极滤波,用固体1H-NMR探测互穿区域的质子信号,表征了玻璃态聚苯乙烯的链互穿程度.该方法在0.5 nm尺度范围内测定了分子链间的距离,且与以往方法相比,该方法具有耗时短、需要样品量少、灵敏度和信噪比高等优点.

脱铝丝光沸石中扭曲四配位铝的^(27)Al 3Q MAS NMR研究

用27Al MAS, 3Q MAS NMR研究了脱铝的丝光沸石和无定形硅铝胶中的铝配位态,在丝光沸石中检测到归属于扭曲四配位铝(Distorted Tetrahedrally Coordinated Al, DTA)的信号, 通过与无定形硅铝胶的比较, 发现扭曲四配位铝的存在是活化和脱铝酸性沸石的典型特征. 从这些结果推断: DTA可能是沸石骨架脱铝形成非骨架铝的中间状态.

Investigation on Acute Biochemical Effects of Ce（NO3 ）3 on Liver and Kidney Tissues by MAS 1H NMR Spectroscopic-Based Metabonomic Approach

High resolution magic angle spinning （MAS）-^1H nuclear magnetic resonance （NMR） spectroscopic-based metabonomic approach was applied to the investigation on the acute biochemical effects of Ce（NO3）3. Male Wistar rats were administrated with various doses of Ce（NO3）3（2, 10, and 50 mg·kg^- 1 body weight）, and MAS ^1H NMR spectra of intact liver and kidney tissues were analyzed using principal component analysis to extract toxicity information. The biochemical effects of Ce（NO3）3 were characterized by the increase of triglycerides and lactate and the decrease of glycogen in rat liver tissue, together with an elevation of the triglyceride level and a depletion of glycerophosphocholine and betaine in kidney tissues. The target lesions of Ce（NO3）3 on liver and kidney were found by MAS NMR-based metabonomic method. This study demonstrates that the combination of MAS ^1H NMR and pattern recognition analysis can be an effective method for studies of biochemical effects of rare earths.

焙烧对HL沸石结构的影响

运用MASNMR研究了焙烧对HL沸石结构的影响 .结果表明 ,高温焙烧将引起HL沸石骨架的脱铝 ,当焙烧温度高于 65 0℃后 ,沸石骨架脱铝明显 ;2 7Al MASNMR谱表明 ,从沸石上脱下来的铝 ,部分形成了NMR不可测的无定形态 ,且随焙烧温度的升高 。

高分辨魔角旋转核磁共振技术在肿瘤代谢组研究中的应用

高分辨魔角旋转核磁共振技术(HRMAS)无需溶剂提取分离,能直接检测离体生物组织样品,得到较高分辨率的核磁共振图谱,在代谢组研究中得到广泛应用。应用HRMAS检测脑、肝、肾、肺等多种离体肿瘤组织,可以直接得到组织细胞中分子水平的代谢物结构和组成信息。基于这些优势,HRMAS在肿瘤早期诊断研究方面展现出良好的应用前景。本文主要介绍了HRMAS技术在肿瘤组织代谢组研究中的应用。

核磁共振技术在生物组织中的应用

在生物组织内部存在大量的生化、生理反应以及分子的扩散运动,它们相互独立,又相互关联,共同构成一个生化反应网络。在病理条件下,某些生化反应过程会发生改变,代谢中间体可能会出现质和量的变化,核磁共振(NMR)可以对这些过程的研究提供非常有用的信息。目前,有3种核磁共振波谱技术可以用于生物组织的研究:①活体组织定域波谱技术;②生物组织提取物的液体高分辨核磁共振技术;③离体组织的高分辨魔角旋转技术。这些方法各有优劣,互为补充,介绍了在生物组织的NMR研究方面的最新进展。