PVP在水/丙酮混合溶剂中分子运动行为的研究

通过对粘度、自旋-自旋弛豫时间以及1H NMR谱的测定,研究了PVP在不同体积配比的水/丙酮溶液中的特性粘数变化和分子运动规律,并讨论了引起这些变化的原因.结果表明:随着丙酮的不断加入,PVP的特性粘数[η]先增加后减小,而T2H先减小后增大.[η]出现最大值也是T2H出现最小值的时候,丙酮的体积百分数为40%.丙酮的加入破坏了水分子间自身氢键相互作用形成的网状结构,解离出来的水分子被PVP优先吸附到大分子链上,部分与羰基形成氢键,另一部分以自由水的形式被包裹在大分子线团内.水分子的不断进入以及与水形成新的氢键使PVP链逐渐伸展,引起特性粘数的增大,分子运动受阻.当丙酮含量增加到一定程度时,水的含量不足以使大分子链继续膨胀,故链呈卷缩状态,使大分子运动逐渐恢复自由.1H NMR谱中各质子的化学位移变化也证实了此过程中的氢键变化规律.     

紫外光辐照聚乙烯醇的1H NMR研究

用¹H NMR谱,自旋-晶格弛豫时间（T₁）和X-射线衍射研究了聚乙烯醇(PVA)在紫外光（UV）辐照后-OH基团与溶剂中残余水质子间氢键的生成与质子交换. 结果表明随着UV光辐照时间的增长,水峰与-OH质子峰逐渐相互靠近,同时水峰逐渐变宽,向低场方向移动,这与-OH基团与溶剂DMSO中残余水的质子之间既有氢键生成又有质子交换有关. 对辐照前后的PVA的DMSO溶液进行变温氢谱的研究,表明随着温度的升高,二者的-OH基团共振峰均逐渐变弱,溶剂残余水峰与-OH基团峰逐渐移向高场. PVA辐照前后随着浓度增大,羟基质子峰“变钝”. 辐照后的PVA的X-射线衍射表明聚集态结构中部分分子间氢键受到了破坏.     

高分子凝胶体积相变中的氢键作用

我们把关联模型(association models)推广应用到高分子凝胶体系,研究高分子与溶剂分子间的氢键和溶剂分子与溶剂分子间的氢键在高分子凝胶体积相变中的作用.首先通过分析凝胶体积分数与温度的关系发现,由于两种氢键作用,随着温度变化高分子凝胶出现连续、不连续体积相变,结果表明在体积相变过程中两种氢键都起着重要作用.其次,对不同氢键分数条件下的旋节线的研究发现,对于高分子凝胶体积相变中出现的UCST和LCST(上临界共溶温度和下临界共溶温度)现象也是由于高分子与溶剂分子间氢键和溶剂分子与溶剂分子间氢键共同作用的结果.     

丙烯腈γ辐射聚合的NMR研究

用¹H NMR、¹³C NMR谱、自旋-晶格弛豫时间（T₁）和自旋-自旋弛豫时间（T₂）研究了丙烯腈在⁶⁰Co γ射线辐射聚合后的大分子结构变化与大分子链的运动. 结果表明随着辐射剂量增大，在单体形成聚合物的过程中，聚合物主链上出现了少量的-OH基团，继续增大辐射剂量， -OH部分被氧化. 对聚合物溶液的变温氢谱的研究表明，溶剂中的残余水与上述-OH形成氢键，且随着温度升高氢键被破坏，同时H₂O与-OH之间还存在着质子交换. 利用¹³C NMR谱对丙烯腈辐射聚合的产物进行了序列结构分析. 对T₁和T₂的研究表明，辐射剂量的增大并未影响到聚丙烯腈的链运动，证明了在丙烯腈的辐射聚合过程交联反应未发生.     

表面活性剂及水溶性功能高分子的NMR研究

核磁共振（NMR）技术是研究表面活性剂在溶液中聚集状态的一种非常有用的工具,本文运用多种NMR技术研究了几种不同类型表面活性剂及水溶性功能高分子在水溶液中的聚集行为： 1. 季铵盐型双子表面活性剂16-4-16的聚集行为季铵盐型双子表面活性剂N,N′-双(十六烷基二甲基)-α,ω-丁烷溴化铵(16-4-16)分子中联接基团及靠近离子头的质子位于胶束的壳层, 运动受到一定限制. 而距离离子头较远的烷烃链位于胶束的内部,运动相对自由. 与对应的单链表面活性剂十六烷基三甲基溴化铵(CTAB)相比,16-4-16形成的胶束堆积更为紧密. 通过NOESY谱中交叉峰强度的定量计算,认为16-4-16在胶束中分子以上下交错排列的方式形成球形聚集体.  2. 脱氧胆酸钠与十六烷基三甲基溴化铵的相互作用在脱氧胆酸钠(NaDC)溶液中,NaDC质子H3与其他质子不同,其横向弛豫时间(T₂)表现为双指数衰减,表明此质子可能存在两种不同的状态. 实验证明,其它胆酸盐的H3的横向弛豫也呈现双指数衰减. 因此推测在胆酸盐的稀溶液中,3-OH质子和羰基氧之间有可能存在氢键作用,形成了头尾相连的分子对结构.  在NaDC和CTAB的混合溶液中,两者形成1∶1的混合胶束. 用NOESY和ROESY研究混合胶束的结构,显示CTAB的离子头位于NaDC的羧酸基团附近. 这可能是正负离子之间的静电性相互作用的结果.  3. 丙烯酰胺/丙烯酸模板共聚物的微结构研究了不同pH值条件下,丙烯酰胺和丙烯酸共聚物分子在水溶液中的聚集形态. 在酸性溶液中,分子内的氢键致使聚集体形成较为紧密的堆积,侧链的苯氧基团运动受阻;随着溶液pH值的增大,丙烯酸电离产生的阴离子使得分子间的静电斥力增大,分子链变得伸展,分子间的氢键作用导致了聚集体体积变大. 当溶液呈强碱性,丙烯酸完全电离,氢键作用力被破坏,分子呈现自由伸展的状态,侧链的苯氧基团运动相对自由.     

脉冲升温纳秒时间分辨中红外光谱研究氨基酸重水溶液的分子间氢键

应用变温傅立叶变换红外光谱和脉冲升温纳秒时间分辨红外差谱研究了组氨酸和甘氨酸的重水溶液的羧基负离子的振动．结果表明不仅氨基酸分子之间形成氢键，而且氨基酸分子和溶剂分子之间也形成氢键．当温度升高时，羧基负离子在1600?1610 cm?1 附近的反对称伸缩振动发生蓝移，说明高温使氢键减弱．温度从10℃突然升高到20℃，组氨酸的时间分辨瞬态光谱出现两个漂白峰，一个在1604 cm?1，指认为形成氨基酸分子间氢键的羧基负离子的峰；另一个在1612 cm?1，指认为氨基酸分子和溶剂分子形成氢键的羧基负离子的峰．前     

几种外场对费米共振的影响:费米共振的拉曼光谱研究

费米共振是分子内和分子间发生的基团间的振动耦合和能量转移现象。有关外场中费米共振的认识、拉曼光谱的研究方法及应用均待开发和推广。本文系统阐述了利用高压DAC技术、变温技术特别是课题组独创的变换溶剂浓度、LCOF等方法获得的有关费米共振的研究成果,即分子场、压力场、温度场等外场对分子内和分子间费米共振的影响:(1)分子场中a.由C_5H_5N在CH_3OH和H_2O中拉曼光谱变化研究表明溶剂效应对费米共振有明显影响;b.通过改变溶液浓度发现了其他方法未能发现的费米共振双线对非对称移动及双线对中倍频的基频亦受费米共振调谐的现象;c.溶液中的氢键、反氢键使分子基团重组而对费米共振产生显著影响;d.C_7H_8和m-C_8H_(105分子间发生会费米共振,且费米共振特性随溶液浓度明显改变;(2)压力场中a.随压强增加谱线蓝移,且频差△随压强改变而引起W改变;b.随压强增加CCl_4在C_6H_6中的v_1+v_4~v_3的W减小速度比纯液体中快,费米共振消失提前。这表明,压强引起的费米共振现象可揭示溶剂效应机理;(3)温度场中温度会影响分子费米共振特性,且对不同分子影响亦不同,温度对CO_2的费米共振影响较大,而对CS_2几乎无影响。本文对分子谱线的认证与归属、分子构象的确定及异构体的鉴别、氢键对分子结构与性质的影响等方面的研究提供了系统的理论与实验依据。     

伞形酮在不同溶剂中的荧光光谱及其二聚作用

对比研究了数种溶剂中不同浓度伞形酮溶液的荧光光谱，发现其峰形和峰位不仅随溶剂而变，且随浓度而变，据此对其发光机理进行了讨论，认为在高浓度伞形酮溶液中存在着地聚现象。二聚体的形成可以借助于与溶剂间的氢键或者单体分子间的氢键作用力来实现，浓度愈高，溶剂形成氢键的能力愈强，愈有利于二聚体的形成，二聚体激发态ＮＮ和单体激发态Ｎ都是比基态Ｎ强得多的酸。     

同步荧光光谱技术研究胶原基表面活性剂溶液中分子的聚集行为

基于胶原基表面活性剂(collagen-based surfactant,CBS)中酪氨酸(Tyr)和苯丙氨酸(Phe)的荧光特性,应用恒波长差(Δλ)为15 nm的同步荧光光谱技术研究CBS浓度、溶液pH值、NaCl浓度和温度对其在水溶液中分子的聚集行为的影响,并以温度为外扰,利用二维同步荧光相关分析研究CBS分子中Tyr残基和Phe残基随温度变化的响应顺序。结果表明,CBS分子在261和282 nm处出现了分别归属于Phe和Tyr的特征吸收峰。随着CBS浓度的升高,CBS分子中Phe残基和Tyr残基数量逐渐增多使CBS分子聚集程度增加,并导致荧光强度增强;CBS溶液pH值(pH 5.0)在等电点附近时,由于CBS分子的疏水作用和氢键形成能力加强,导致CBS分子聚集程度增强;CBS溶液中NaCl浓度的升高,则使CBS分子间排斥力减弱,从而导致CBS分子的聚集;然而温度升高,CBS由聚集状态逐渐变为单分子状态,因猝灭、变性以及氢键形成能力降低,荧光强度逐渐降低。以温度为外扰的二维同步荧光相关光谱分析可知：低温下(10～40 ℃ ),CBS聚集体随温度升高逐渐松散,位于聚集体内部的Phe残基比Tyr残基优先响应;而在45～70 ℃时,CBS由单分子状态逐步水解为无规卷曲构造,Tyr残基的间距变大,氢键形成能力大大降低,Tyr残基比Phe残基优先响应。     

利用二维同步荧光相关光谱研究温度对胶原溶液中分子聚集行为的影响

采用恒波长同步荧光法和二维相关分析技术研究了不同浓度Ⅰ型胶原溶液中胶原分子聚集行为随温度升高(10~70 ℃)的变化规律。选取0.2,0.4,1.6 mg·mL-1的胶原溶液,在初始温度下各浓度溶液中胶原分子分别处于单分子状态、较低程度和较高程度的聚集态。研究表明：波长差为9 nm的同步荧光光谱中,激发波长282和292 nm处荧光峰分别归属于未参与形成氢键的Tyr(酪氨酸)残基和参与形成氢键的Tyr残基。对升温过程同步荧光数据进行二维相关分析,得两荧光值对温度的响应顺序,进而推测得到：当温度低于30 ℃时,0.2 mg·mL-1溶液中出现了胶原分子间形成Tyr残基参与的氢键的趋势。0.4和1.6 mg·mL-1的溶液中原有聚集体可能发生进一步聚集,形成疏水微区。当逐步接近胶原变性温度(36~38 ℃)时,推测0.4和1.6 mg·mL-1胶原溶液中的疏水微区和聚集体有被破坏的趋势,而0.2 mg·mL-1胶原溶液保持分子间形成氢键的趋势。超过胶原变性温度时,各浓度溶液中胶原分子三股螺旋结构发生松散。当超过45 ℃时,胶原分子三股螺旋结构松散的趋势更为明显。     

Poly(ethylene glycol) and phospholipid packing in the structure of reverse micelles

The influence of water substitution by a substance with a different polarity on the structure of phospholipid monolayer interface in water-in-oil microemulsion has been studied by the Fourier-transform pulsed-gradient spin-echo (FT PGSE)¹H nuclear magnetic resonance (NMR) and electron spin resonance (ESR) spin-label methods. For this purpose the soybean phosphatidylcholine-based microemulsion and water soluble poly(ethylene glycol) with molecular weight 400 (PEG400) were used. Self-diffusion coefficients of all microemulsion components obtained by the FT PGSE NMR technique provided information about both the size of reverse micelles and distribution of components between different microemulsion compartments. The maximum hyperfine splitting, 2A _max, in the ESR spectra was used to characterize the degree of the phospholipid hydrocarbon chain mobility. It was shown that PEG400 alters significantly the size of the reverse micelles and the motion of the labeled segments of the lipid tails. A mechanism of PEG400 acting in solution of the phospholipid-based reverse micelles on the basis of the rough decrease of the micelle core polarity was suggested.     

Preparation and Properties of Polyamide 66/Organo‐Vermiculite Nanocomposites

Polyamide 66/organo‐vermiculite (OVMT) nanocomposites with different clay loadings were prepared via melt mixing using a twin‐screw extruder. The vermiculite was premodified with hexadecyl trimethylammonium bromide by ball milling. The resultant polyamide 66/OVMT nanocomposites possessed an exfoliated structure as confirmed by both wide angle X‐ray diffraction (WAXD) and transmission electron microscopy (TEM). Mechanical property tests showed that the tensile strength, flexural modulus, and flexural strength of these nanocomposites increased dramatically with the OVMT loading, and the Charpy impact strength and fracture toughness decreased. In addition, the heat distortion temperature of the nanocomposites showed an obvious increase compared with pure polyamide 66. Finally, differential scanning calorimetry (DSC) results showed that the crystal structure and crystallization behaviors of the nanocomposites are different from those of polyamide 66.     

Magnetic resonance imaging in patients with unstable angina: comparison with acute myocardial infarction and normals

The role of magnetic resonance imaging in characterizing normal, ischemic and infarcted segments of myocardium was examined in 8 patients with unstable angina, 11 patients with acute myocardial infarction, and 7 patients with stable angina. Eleven normal volunteers were imaged for comparison. Myocardial segments in short axis magnetic resonance images were classified as normal or abnormal on the basis of perfusion changes observed in thallium-201 images in 22 patients and according to the electrocariographic localization of infarction in 4 patients. T2 relaxation time was measured in 57 myocardial segments with abnormal perfusion (24 with reversible and 33 with irreversible perfusion changes) and in 25 normally perfused segments. T2 measurements in normally perfused segments of patients with acute myocardial infarction, unstable angina and stable angina were within normal range derived from T2 measurements in 48 myocardial segments of 11 normal volunteers (42 +/- 10 ms). T2 in abnormal myocardial segments of patients with stable angina also was not significantly different from normal. T2 of abnormal segments in patients with unstable angina (64 +/- 14 in reversibly ischemic and 67 +/- 21 in the irreversibly ischemic segments) was prolonged when compared to normal (p less than 0.0001) and was not significantly different from T2 in abnormal segments of patients with acute myocardial infarction (62 +/- 18 for reversibly and 66 +/- 11 for irreversibly ischemic segments). The data indicate that T2 prolongation is not specific for acute myocardial infarction and may be observed in abnormally perfused segments of patients with unstable angina.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of Carbon Black on Chain Mobility and Dynamic Mechanical Properties of Solution Polymerized Styrene-Butadiene Rubber

The structure of the bound rubber, the ¹H NMR (nuclear magnetic resonance) relaxation time, and the crosslink density of the physical network and the glass transition, were studied for solution polymerized styrene-butadiene rubber (SSBR) filled by carbon black, to investigate the effects of carbon black on the chain mobility and dynamic mechanical properties. It was found by ¹H NMR analysis that the rubber chains were adsorbed on the surface of carbon black to form physical crosslinks and restrict the mobility of the chains, especially for some high-mobility units such as chain ends. It was calculated, according to the molecular weight between adjacent crosslinks, that the main motion units of the tightly adsorbed chains appeared to be similar in size to the chain segments. The glass transition temperature (T _g) obtained by differential scanning calorimetry (DSC) could not be used to judge the effect of carbon black on chain mobility, while the appearance and change of the loss-tangent (tan δ) peak at high temperature in dynamic mechanical thermal spectrometry (DMTS) test showed that there were three chain states: free chains, loosely adsorbed chains, and tightly adsorbed chains. The dynamic rheology test showed that the unfilled SSBR compound had the rheological characteristics of entangled chain networks; however the nonlinear viscoelasticities of the filled SSBR were related to the gradual disentanglement of adsorbed chains and free chains. The peaks in tan δ vs. temperature curves implied that the motion unit size decreased with the increase of bound rubber content, and the modulus vs. temperature curve showed an apparently lower mobility of adsorbed chains than that of free chains through the very low dependence of modulus on temperature for the highly filled compounds. The extremely high tensile modulus of the vulcanizate with 63.6% carbon black at room temperature also implied that the adsorbed chains were in the glass state due to their restriction by the carbon black.     

Direct assembly of in situ templated CdSe quantum dots via crystalline lamellae structure of polyamide 66

A simple concept is proposed for templating in situ synthesised CdSe quantum dots (QDs) into an organised nano-pattern using the crystalline lamellae structure of polyamide 66 (PA66). The morphology obtained for PA66 and the hybrid material on Si/SiO _x solid substrate was characterised by means of atomic force microscope. Controlling the PA66 concentration in solution and the organic–inorganic interactions are found to be the keys factors to direct the assembly of CdSe QDs along the PA66 linear crystalline structure. This simple approach could be opened a new avenue for a large spectrum of innovative high-tech applications.     

阿立哌唑的谱学研究

对抗精神分裂症新药阿立哌唑的紫外光谱(UV)、红外光谱(IR)、核磁共振谱(NMR)以及质谱(MS)进行了解析。根据该化合物的紫外光谱探讨了其在溶液中的存在形式,讨论了红外光谱的特征吸收峰所对应的官能团的振动形式以及质谱的特征同位素离子峰,利用1H—1H cosy,HSQC,HMBC等二维核磁共振技术推断并确证了该化合物的结构,对NMR谱信号进行了归属,并根据化学位移、偶合常数以及二维相关谱分析了该化合物结构中的10个不同的亚甲基。     

Effect of heating treatment on trap level distribution in polyamide 66 film electrets

The effect of heating treatment on the trap level distribution in polyamide 66 film electret is studied by thermally stimulated depolarization current （TSDC） technique. For annealed polyamide 66, there are three trap levels that respectively originate from space charge trapped in amorphous phase, interphase and crystalline phase. There is one peak that originates from space charge trapped in amorphous phase for quenched one. Using multi-point method to fit the experimental curves, the detrapping current peaks can be separated and the trap depth is obtained. The shallower trap levels trapped in amorphous phase and interphase are obviously close to the deeper trap level trapped in crystalline phase for annealed polyamide 66 as the polarization temperature increases, while the trap level distribution remains unaffected by polarization temperature for quenched one.     

NMR法研究胶束的增溶作用

本文用高分辨~1H.NMR谱研究了多种短链芳烃及其衍生物在阳离子表面活性剂—十六烷基三甲基溴化铵(CTAB)水溶液胶束和非离子表面活性剂—月桂基聚氧乙烯(4)醚(Brij30)非水溶液胶束中的增溶作用。得到这些不同种类的增溶物在两种不同类型的胶束中增溶位置的详细结果。并讨论了增溶物与表面活性剂分子之间的相互作用。这一研究对深入探讨增溶机理十分有益。     

ZnSiF66H2O∶Fe2+晶体光谱结构的杨特勒效应和电子顺磁共振g因子

研究了过渡金属络合物ZnSiF66H2O∶Fe2+晶体光谱结构的杨特勒效应和电子顺磁共振g因子。由单晶的中子衍射方法得到ZnSiF66H2O∶Fe2+的晶体结构,这种结构可以用SiF2-6和Zn(H2O)++∶Fe2+两个离子来描述。而局域三角对称的Zn(H2O)++∶Fe2+离子反映了这种晶体的主要光谱性质。利用不可约张量的理论构成了晶体场和自旋轨道相互作用哈密顿矩阵和电子顺磁共振理论公式,求出了晶体ZnSiF66H2O∶Fe2+中Fe2+离子的电子顺磁共振零场分裂参量(D,F-a)及g因子,并研究了低自旋3L态对电子顺磁共振零场分裂参量的贡献是不能忽略的,而对g因子的贡献是非常小的,并理论计算了它的晶体结构,证实了杨特勒效应的存在,理论计算的结果与实验值是相符的。     

丙烯酰胺-甲基丙烯酸共聚物结构的NMR研究

用¹H NMR谱,¹³C NMR谱,DEPT谱,gHMQC,gHMBC二维谱和质子弛豫时间等方法研究了在紫外光辐照条件下丙烯酰胺(AM) -甲基丙烯酸(MAA)共聚合反应,讨论了AM-MAA共聚合反应时间与转化率的关系、共聚单体的连接方式、共聚物序列结构以及不同辐照时间下形成的共聚物链运动. 结果表明在紫外光辐照条件下,AM-MAA共聚物链节中同时存在多种连接方式,当反应时间为45 min时,共聚合转化率可达100%. 从自旋-晶格弛豫时间（T₁）和自旋-自旋弛豫时间（T₂）测定中得出,在辐照1小时范围内,时间越长聚合物长链分子运动速度越快,但主链的链段运动变化不明显.