Investigation of the high-temperature Cr：LiSrAlF6 crystal by Raman spectroscopy

In this paper, Cr-doped LiSrAlF6 crystals are investigated using high-temperature Raman spectroscopy and the single-crystal Raman spectra of Cr：LiSrAlF6 are analysed by factor group theory and comparison with other fluorides. The results indicate that Cr：LiSrAlF6 is stable below its melting point; Raman peaks located at 561,322 and 250 cm-1 are assigned to the Alg modes of AlF6, SrF6 and LiF6 octachdra, respectively; with temperature increasing, Raman peaks associated with AlF6 octahedra shift towards low frequencies, while LiF6 and SrF6 octahedra are temperature- insensitive; around the crystal melting point, three new Raman peaks occur, which are associated with the AlF6 octahedral chain structure. Finally, the microstruetural evolution of Cr：LiSrAlF6 from room temperature to its melting point is discussed based on its Raman spectra.

Localized Electrochemical Impedance Spectroscopy Study on the Corrosion Behavior of Fe-Cr Alloy in the Solution with Cl^- and SO_4^(2-)

The corrosion behaviors of Fe-Cr alloy under three different pH values solutions with C1- and SO42- were investigated by localized electrochemical impedance spectroscopy （LEIS） measurements and the corrosion products were analyzed by laser Raman spectrometry. The results show that the high corrosion resistance of Fe-Cr Alloy is attributed to a passive film which is formed more easily when the alloy contains a large quantity of Cr element. However, its corrosion resistance varies in the solutions with different pH values, especially in the initial corrosion. The average impedance values in neutral and alkaline solution are much higher than that in acidic solution because the passive film is more likely to dissolve in the acidic condition. Moreover, the destructive effect of C1- and SO42 ions on the passive film is also demonstrated in corrosion process through the change of the impedance value with the steeping time.

拉曼光谱表征石墨烯结构的研究进展

石墨烯是一种只有一个原子层的二维原子晶体,它是构成零维富勒烯、一维碳纳米管和三维石墨等其他碳同素异形体的基本结构单元,具有很多独特的电子及力学性能,因而吸引了化学、材料及其他领域众多科学家的高度关注。拉曼光谱作为一种灵敏便捷的表征方法,在石墨烯的研究中起到重要的作用。该综述总结了近年来拉曼光谱在石墨烯表征中的应用,在对单层石墨烯的典型特征峰作详细介绍的基础上,通过对拉曼谱图中D峰、G峰和2D峰的强度、位置和半峰宽变化情况的分析,可以快速而准确地表征出石墨烯的层数,并可以对石墨烯的堆垛方式、边缘手性和掺杂程度进行判定。同时,也系统地分析了在石墨烯制备与测试过程中基底、掺杂、温度和激光功率等因素对拉曼谱图中D峰、G峰和2D峰的强度、位置和半峰宽的影响。

基于纳米通道表面增强拉曼散射光谱分离检测组氨酸对映体的研究

以Al2O3纳米通道膜为基体制备金纳米通道,以场发射扫描电镜、循环伏安、交流阻抗等方法对金纳米通道进行表征。采用EDC-NHS的交联反应,将壳聚糖自组装至金纳米通道孔壁上,形成表面具有手性位点选择性的功能化纳米通道膜,利用纳米通道优异的分离能力手性分离D-,L-组氨酸。考察了纳米通道孔径和溶液的p H值对分离效果的影响。采用银溶胶作为表面增强拉曼(SERS)测试的基底,增强对D-,L-组氨酸的SERS效应,提高检测该物质的选择性和灵敏度。分别在1000和1590 cm!1处测定L-组氨酸和D-组氨酸。在含200μL组氨酸、100μL银溶胶和100μL 80 mmol/L Na Cl溶液(p H=7.59)中,D-组氨酸和L-组氨酸可得到较好分离,分离度达到4.91。

D-和L-丙氨酸的磁手性相变(英文)

利用变温直流磁化率测定,在外加磁场强度为1T,磁场平行晶体c轴,发现在温度270K,D-和L-丙氨酸发生磁手性相变.结合中子衍射确定磁手性相变机制为,D-和L-丙氨酸中的(N+H)有类金属氢原子特性,在相变点270K,由(N+H)释放的电子自旋有磁手性.用变温偏振拉曼光谱进一步证明,D-丙氨酸中的(N+H)的电子自旋("),而L-丙氨酸中的电子自旋(#),处于高低不同的能态.磁手性相变(宇称和时间反演都破缺)能差为10-4-10-5eV·molecule-1.

全配方合成油SJ/CF/5W-30的摩擦炭化及其同摩擦学特性的关联

在 SRV微动磨损试验机上 ,采用阶梯升温方式研究了全配方汽油发动机油 SJ/CF/5 W- 30对几种不同摩擦副的润滑作用 ,并采用激光拉曼分子光谱仪分析了润滑油的摩擦炭化行为 .结果表明 :在连续升温的摩擦磨损过程中 ,摩擦系数曲线出现明显波谷 ,且波谷现象随摩擦副材料类型的不同而不同 ,其中钼合金喷涂层 /铸铁摩擦副的波谷现象最为显著 .通过对润滑油摩擦炭化物进行激光拉曼光谱分析发现 ,其 G线峰位、峰宽以及石墨微晶尺寸 (L a)均同摩擦副材料类型相关 ;炭化物石墨微晶尺寸 (L a)同波谷处摩擦系数亦存在对应关系 ,其中钼合金喷涂层 -铸铁摩擦副对应的润滑油摩擦炭化产物的石墨微晶尺寸最大 。

Cr掺杂SiC薄膜的制备与光致发光特性

利用高纯SiC烧结靶上粘贴金属Cr片的复合靶用双离子束溅射沉积方法,在Si和KBr单晶衬底上制备了掺杂SiC薄膜。用傅里叶变换红外光谱分析法(FTIR)和喇曼光谱仪对制得的薄膜样品进行了表征,用荧光分光光度计对样品的光致发光(PL)特性进行了研究。通过FTIR分析得到对应于Si―C键的峰位没有发生明显改变而峰强随着Cr掺杂量的增加而降低,喇曼光谱分析发现Cr掺杂导致Si和C团簇的形成,说明Cr的掺杂阻碍了Si―C键的结合。将不同Cr掺杂浓度的SiC薄膜经1000℃退火处理,发现位于413、451和469nm的三个发光峰的位置基本不变,但强度有明显改变。

基于金属有机框架材料复合基底表面增强拉曼光谱测定水中的戊二醛

戊二醛在精细化工中的使用,导致大量戊二醛产品如鞣革剂、消毒剂、蛋白质交联剂、组织固化剂等被排放到水体中,对水体生物及生态环境造成严重污染,对整个生态系统带来危害,因此开发对戊二醛快速简易的检测技术至关重要。表面增强拉曼光谱法(SERS)是一种基于待测物分子对光的散射效应而建立起来的定量检测技术,具有灵敏度高,所需样品量少,水干扰小等优势,功能强大,被广泛应用于分析检测领域中。目前尚未见文献报道基于SERS技术用于定量检测环境水体中戊二醛的案例。基于金纳米粒子(AuNPs)的局域表面等离子体共振效应、金属有机框架材料MIL-101(Cr)的富集能力以及对氨基苯硫酚(PATP)与戊二醛之间的席夫碱反应,基于Au@MIL-101/PATP复合材料建立了一种检测水中戊二醛的表面增强拉曼光谱分析方法。通过溶液浸渍法制备Au@MIL-101材料,再利用Au-S共价键作用将PATP修饰到AuNPs表面得到Au@MIL-101/PATP复合基底。利用透射电镜(TEM)、能量色散X射线光谱(EDS)、X射线衍射(XRD)、X射线光电子能谱(XPS)和拉曼光谱等方法对基底材料进行表征。论文研究了MIL-101(Cr)中AuNPs的密度对拉曼增强效果的影响,氯金酸浓度为0.6 g·L^(-1)时增强效果最好。戊二醛与PATP的席夫碱反应产物在1621 cm^(-1)处产生C N特征峰,戊二醛浓度与I 1078/I 1621信号比值在1×10^(-7)~1×10^(-5) mol·L^(-1)范围内具有良好的线性,检出限(LOD)为3.5×10^(-8) mol·L^(-1)。实际样品分析结果表明,自来水和河水水样中戊二醛的加标回收率分别为91.4%~111.8%,89.8%~114.2%,相对标准偏差分别为5.2%~14.5%,8.6%~13.4%。本方法具有操作简单、分析时间短、绿色等优点,为检测水中的痕量戊二醛提供了新思路。

R-(+)-α-苯乙胺基草酰肼的拉曼光谱研究

酰肼类的衍生物是制备光学纯螺二酮的一种重要手性拆分剂,因此,对酰肼类衍生物结构研究就显得尤为重要。在本文中我们对手性拆分剂R-(+)-α-苯乙胺基草酰肼进行了拉曼光谱测试分析,并对主要的谱峰进行了归属,进一步证实了它的结构。

Alkali-hydrolysis of D-glucono-delta-lactone studied by chiral Raman and circular dichroism spectroscopies

The alkali-hydrolysis of D-glucono-delta-lactone (GDL) was investigated by chiral Raman and circular dichroism (CD) spectroscopies in combination with density functional theory calculation. Based on the characteristic CD bands of GDL and its hydrolysis product, the dynamics of hydrolysis was studied using stopped-flow CD method. Using chiral Raman spectroscopy (CRS), the stereochemical change of GDL owing to the hydrolysis reaction was discussed on the vibrational scale. The CRS results show that the ring-opening due to hydrolysis has a great influence on the chiral structure around the car-bonyl group, which was evidenced by the disappearance of the CRS band at 1735 cm-1 (C== O stretching vibrational mode). In addition, the change of positions and intensity of CRS bands was also observed, which was ascribed to the perturbation around the C2, C3, C4 and C5 carbons due to ring-opening. It is worthy to note that the stereochemistry of C2, C3, C4 and C5 had no fundamental change during the hydrolysis reaction, which was reflected in the maintenance of the signs of the CRS bands. Our results demonstrate that in comparison with CD technique, CRS may provide more detailed structural information of chiral molecules and open up new vistas of research for chiral reactions.

Al_2O_3和MgO对含铬渣黏度及结构影响的研究

为使铬铁冶炼过程中的渣系具有良好流动性同时让渣金分离顺利进行,研究Al_2O_3和MgO对含铬渣黏度的影响具有重要的理论价值。应用拉曼光谱法从微观结构方面研究了Al_2O_3和MgO对CaO-SiO2-MgO-Al_2O_3-Cr_2O_3渣系黏度的影响。结果表明:在牛顿流体状态下,含铬渣的黏度随着渣中Cr_2O_3及Al_2O_3含量的增加而增大,随着MgO含量的增加而降低。结合拉曼光谱的分析结果,随着Al_2O_3含量的增加,高聚合度单元Q_(Si)~2和Q_(Si)~3的含量随之增大,而低聚合度单元Q_(Si)~1和Q0Si的含量随之降低,渣系中每个参与形成网络结构的硅原子所含非桥氧数量(NBO/Si)降低,因此熔渣聚合度增大。而随着MgO含量的增加,熔渣结构发生高聚合度单元Q_(Si)~3向低聚合度单元Q_(Si)~1和Q0Si的转变,NBO/Si值增大,渣系黏度变化与熔渣聚合度变化趋势保持一致。因此,通过分析渣系组元含量变化对渣系聚合度的影响可直观体现黏度变化趋势。