金属钨三键多核金属有机配合物高压拉曼及红外光谱研究

研究了金属钨三键多核金属有机配合物 [Cl(CO) 2 (DPPE)WCC6 H4CCC6 H4NC]2 ReCl(CO) 3(DPPE =bis(diphenylphosphino)ethane,(Ph) 2 PCH2 CH2 P(Ph) 2 )不同压力下的拉曼和红外光谱 (最高压力约 5 0kbar)。配合物在 3 0kbar存在一压力诱导二级相变。金属钨三键伸缩振动ν(WC)压力相关 (dν/dp)在低压相区 ( 0 5 9cm-1·(kbar) -1)与高压相区 ( 0 0 4cm-1·(kbar) -1)差别很大 (约 15倍 )。在高压下 ,从基团Cl(CO) 2 (DPPE)WC中的金属钨W向COπ 轨道的π 反馈明显增强 ,WC的键强度减弱 ,力常数减小和ν(WC)降低 ;此效应与压力缩短WC键 ,增大力常数和增加ν(WC)的效应互相竞争。     

β-三苯锗基丙酸及β-三苯锗基丁酸的拉曼及红外光谱

我们合成了有机锗化合物的一类重要中间体β-三苯锗基丙酸和β-三苯锗基丁酸 ,测量了该化合物的拉曼光谱和红外光谱 ,经光谱分析 ,指认了主要波数所对应的分子振动。在这两种化合物的拉曼光谱中 ,30 50 cm- 1( m)、1 0 2 5cm- 1( m)和 61 8cm- 1( m)分属于 Ph- H的伸缩振动、面内弯曲振动和面外扭曲振动。饱和 Ge- C键的振动分别在 594cm- 1和 587cm- 1,同时指出了 Ph- Ge的几种振动所对应的振动频率。在红外光谱中 ,C=O的振动出现在 1 70 9cm- 1( s)和 1 70 5cm- 1( s) ,与饱和碳相连接的 Ge- C振动出现在 61 7cm- 1( w)和 61 7cm- 1( w)。     

β-三氯锗基丙酸类化合物的拉曼光谱和红外光谱

我们合成了β-三氯锗基丙酸及其类似物并测量了该化合物的拉曼光谱和红外光谱 ,经光谱分析 ,指认了主要波数所对应的分子振动。在 A、B、C、D四种化合物的拉曼光谱中 ,Ge- Cl的振动分别出现在 397cm- 1( vs)、40 0 cm- 1( vs)、394cm- 1( vs)、385cm- 1( vs)中 ,而在红外光谱中却无法证明 Ge- Cl键的存在 ,Ge- C键的振动在 Raman光谱中分别在 594cm- 1( w)、62 6cm- 1( w)、634cm- 1( w)、641 cm- 1( w)。在红外光谱中 ,各种极性基团的振动表现的更明显 ,分别出现了 O- H、CH2 、C- O和 C=O的振动峰。     

二氰胺根分子内费米振动耦合能量转移的超快二维红外光谱

二氰胺根离子(N(CN)-2,DCA)的C≡N对称及反对称伸缩振动(νas,C≡N和νss,C≡N)和N—C伸缩振动的和频峰(νas,N—C+νss,N—C)之间由于费米共振作用存在振动耦合。本文研究了二氰胺钠在DMSO溶液中的超快二维红外(2DIR)光谱和超快红外泵浦探测(IR PP)光谱。结合该体系的傅里叶变换红外(FTIR)光谱实验结果,对二氰胺根离子体系中的分子内振动能量转移过程进行了分析。     

高压下正戊醇的拉曼光谱原位研究

在室温(23℃)高压条件下,利用立方氧化锆压腔研究了正戊醇在波数800~3 000 cm-1范围内的拉曼光谱。拉曼谱峰随着压力的增大变得越来越尖锐,C—H伸缩振动峰在高压下不易被分离。在0.1 MPa~1.75 GPa,其C—H伸缩振动峰均随着压力的增大向高波数方向线性移动,拉曼频移与压力的线性拟合方程分别为:P(MPa)=69.652 65.(Δνp)single,T=23℃+105.806 93,0(Δpν)single(cm-1)≤23;P(MPa)=77.974 04.(Δpν)2 960,T=23℃+95.390 5,0(Δνp)2 960(cm-1)≤21;P(MPa)=126.956 39.(Δpν)2 863,T=23℃-110.648 09,0(Δpν)2 863(cm-1)≤13。正戊醇的C—H伸缩振动单峰拟合的波数随压力的变化关系为(sνingle/P)T=(14±1)cm-1,适合用来标定体系压力。在压力为1.75 GPa时,正戊醇的拉曼谱峰有明显跳跃,同时镜下观察到其液-固相转变。液-固相转变过程中的摩尔体积变化为ΔVm=1.84×10-6m3.mol-1。     

银(Ⅰ)、镉(Ⅱ)4-巯基吡啶配合物的光谱研究

采用常规溶液反应蒸发法以4-巯基吡啶(简写为4-MPy)为有机配体与银、镉的硝酸盐合成了两种金属有机配合物。并利用红外、拉曼、紫外-可见光谱技术对4-MPy及合成的配位化合物进行了研究,对主要红外和拉曼谱带进行了经验归属,并进一步讨论了配体和配合物的特征吸收谱带与配合物结构间的关系。在红外光谱中,配体在1 459cm-1处的吸收峰归属为CC和CN复合振动峰,形成配合物后在两种配合物中,此吸收峰分别向高波数位移至1 464和1 464cm-1。在拉曼光谱中,两种有机配位化合物在1 004和1 008cm-1处归属为环呼吸振动峰、在1 617和1 615cm-1处归属为环伸缩振动峰、在720和720cm-1处归属为β(C—C)和ν(C—S)的复合振动峰,各自十分相似。     

基于TCNQ电荷转移化合物的合成与光谱性质

π电子受体TCNQ的电荷转移化合物有奇特的电学和磁学性质,在该类电荷转移化合物中,TCNQ的形态对化合物的性质有较大的影响。文章合成了两种电荷转移化合物[RBz(4-CH₃)Py][TCNQ](R=Br(1),I(2)),通过元素分析、红外光谱和拉曼光谱对其进行了表征。这两种化合物的元素分析结果显示与理论值一致。通常在2 200 cm-1附近的C≡N的伸缩频率经常被用来确定TCNQ分子的电荷,TCNQ中性分子的ν(CN)在2 222 cm-1以上,而这两种化合物的ν(CN)都向低波数移动,在2 185～2 156 cm-1之间。通过对两种化合物红外和拉曼光谱的测定,显示了其中的TCNQ形态是TCNQ阴离子自由基（TCNQ－）。     

293～563 K下甲醇结构的研究

利用金刚石压腔和拉曼光谱,研究了甲醇从室温到563 K下的结构特征。结果表明：随着温度的升高,体系压力也在不断增大;ν_CH区伸缩振动和ν_OH区伸缩振动同时受到温度和压力的影响,但两种作用相反。由于压力效应大于温度效应,随温度压力的增大,ν_CH区伸缩振动的拉曼位移向高频方向移动,说明C—H键键能在增大;而O—H伸缩振动峰的相对面积随温度压力的增大而增大,说明对C—H键而言,O—H键总强度是增加的,由此推测在地质条件下,压力可能阻碍或延长了干酪根的降解生烃过程。     

常温0.1～2GPa压力下文石的拉曼光谱研究

利用碳化硅压腔结合拉曼光谱分析技术,研究了常温0.1～2GPa压力下文石的拉曼光谱特征,并得出文石拉曼位移与压力之间的关系:ν153(cm-1)=0.0035p(MPa)+154.0,ν206=0.0060p+206.3,ν704=0.0021p+704.2,ν1085=0.0035p+1085.3。在实验的压力范围内,未观察到文石的相变。另外,与其他碳酸盐矿物(菱镁矿、白云石)类似,0～2GPa压力下文石的对称伸缩振动拉曼位移随压力变化的dν1025/dp值大于超高压条件下的dν1025/dp值,表明碳酸盐矿物[CO3]基团中C—O键的可压缩性和压力有关,其可压缩性在0.1～2GPa时较大,压力升高可压缩性降低。     

高温高压下方解石相转变的拉曼光谱原位实验研究

用热液金刚石压腔装置结合拉曼光谱技术研究了高温高压下方解石的相变过程及拉曼光谱特征。结果表明:常温条件下,体系压力增至1 666和2 127 MPa时,方解石的拉曼特征峰155cm-1消失,1 087cm-1峰分裂为1 083和1 090cm-1两个谱峰、282cm-1峰突然降至231cm-1,证明其转变为方解石-Ⅱ和方解石-Ⅲ。在起始压力为2 761MPa和低于171℃的升温过程中,方解石-Ⅲ的拉曼散射的各个特征振动峰没有变化。当温度达到171℃,方解石晶体完全变成不透明状,其对称伸缩振动峰1 087cm-1、面内弯曲振动峰713cm-1和晶格振动峰155和282cm-1均发生突变,说明方解石-Ⅲ相变生成一种碳酸钙新相。体系降至常温,该新相一直保持稳定不变,表明高温高压下方解石向碳酸钙新相的转变过程是不可逆的。方解石-Ⅲ与碳酸钙新相之间的相变线方程为P(MPa)=9.09.T(℃)+1 880。碳酸钙新相的对称伸缩振动峰(ν1 087)随压力、温度的变化率分别为dν/dP=5.1(cm-1.GPa-1),dν/dT=-0.055 3(cm-1.℃-1)。     

FT‐IR,FT‐Raman,SERS spectra and computational calculations of 4‐ethyl‐N‐(2′‐hydroxy‐5′‐nitrophenyl)benzamide

Fourier transform infrared (FT‐IR) and FT‐Raman spectra of 4‐ethyl‐N‐(2′‐hydroxy‐5′‐nitrophenyl)benzamide were recorded and analyzed. A surface‐enhanced Raman scattering (SERS) spectrum was recorded in silver colloid. The vibrational wavenumbers and corresponding vibrational assignments were examined theoretically using the Gaussian03 set of quantum chemistry codes. The red shift of the NH stretching wavenumber in the infrared spectrum from the computational wavenumber indicates the weakening of the NH bond resulting in proton transfer to the neighboring oxygen atom. The simultaneous IR and Raman activation of the CO stretching mode gives the charge transfer interaction through a π‐conjugated path. The presence of methyl modes in the SERS spectrum indicates the nearness of the methyl group to the metal surface, which affects the orientation and metal molecule interaction. The first hyperpolarizability and predicted infrared intensities are reported. The calculated first hyperpolarizability is comparable with the reported values of similar derivatives and is an attractive subject for future studies of nonlinear optics. Optimized geometrical parameters of the title compound are in agreement with reported structures. Copyright © 2009 John Wiley & Sons, Ltd.     

Vibrational spectroscopic studies and DFT calculations of 4‐fluoro‐N‐(2‐hydroxy‐4‐nitrophenyl)benzamide

Fourier transform infrared (FT‐IR) and FT‐Raman spectra of 4‐fluoro‐N‐(2‐hydroxy‐4‐nitrophenyl)benzamide were recorded and analyzed. The vibrational wavenumbers and corresponding vibrational assignments were examined theoretically using the Gaussian03 set of quantum chemistry codes. The red‐shift of the NH‐stretching wavenumber in the infrared (IR) spectrum from the computed wavenumber indicates the weakening of the NH bond resulting in proton transfer to the neighboring oxygen atom. The simultaneous IR and Raman activation of the CO‐stretching mode gives the charge transfer interaction through a π‐conjugated path. Copyright © 2008 John Wiley & Sons, Ltd.     

FT‐IR,FT‐Raman,and computational calculations of 4‐chloro‐2‐(3‐chlorophenyl carbamoyl)phenyl acetate

FT‐IR and FT‐Raman spectra of 4‐chloro‐2‐(3‐chlorophenylcarbamoyl) phenyl acetate were studied. Vibrational wavenumbers and corresponding vibrational assignments were examined theoretically using the Gaussian03 set of quantum chemistry codes and the normal modes are assigned by potential energy distribution (PED) calculations. Simultaneous IR and Raman activation of the CO stretching mode shows the charge transfer interaction through a π‐conjugated path. Optimized geometrical parameters of the title compound are in agreement with the reported values. Analysis of the phenyl ring modes shows that C C stretching mode is equally active as strong bands in both IR and Raman, which can be interpreted as the evidence of intramolecular charge transfer via conjugated ring path and is responsible for hyperpolarizability enhancement leading to nonlinear optical activity. The red‐shift of the NH‐stretching wavenumber in the infrared spectrum from the computed wavenumber indicates the weakening of the NH bond resulting in proton transfer to the neighboring oxygen atom. Copyright © 2009 John Wiley & Sons, Ltd.     

FT‐IR,FT‐Raman and DFT calculations of the salicylanilide derivate 4‐chloro‐2‐(4‐bromophenylcarbamoyl)phenyl acetate

FT‐IR and FT‐Raman spectra of 4‐chloro‐2‐(4‐bromophenylcarbamoyl)phenyl acetate were recorded and analyzed. The vibrational wavenumbers and corresponding vibrational assignments were examined theoretically using the Gaussian03 set of quantum chemistry codes. The red shift of the NH stretching wavenumber in the infrared (IR) spectrum from the computed wavenumber indicates the weakening of the NH bond resulting in proton transfer to the neighbouring oxygen atom. The simultaneous IR and Raman activations of the CO stretching mode give the charge transfer interaction through a π‐conjugated path. Optimized geometrical parameters of the title compound are in agreement with similar reported structures. From the optimized structure, it is clear that the hydrogen bonding decreases the double bond character of CO bond and increases the double bond character of the C N bonds. The first hyperpolarizability, predicted infrared intensities and Raman activities are reported. The calculated first hyperpolarizability is comparable with the reported values of similar derivatives and is an attractive object for future studies of non‐linear optics. The assignments of the normal modes are done by potential energy distribution (PED) calculations. Copyright © 2009 John Wiley & Sons, Ltd.     

Coadsorption of trimethyl phosphine and thiocyanate on colloidal silver: a SERS study combined with theoretical calculations

The adsorption of trimethyl phosphine (TMP) on colloidal silver has been investigated by means of surface‐enhanced Raman scattering spectroscopy (SERS). On the basis of surface selection rules, it is deduced from the SERS results that TMP adsorbs on silver surface via its P atom. The electron donor effect of TMP can be sensitively probed by the coadsorbed SCN⁻. The Raman wavenumber of νCN of the adsorbed SCN⁻ shifts to lower wavenumbers when TMP is coadsorbed with SCN⁻ and the red shift of C≡N stretching wavenumber is found to increase with increasing surface coverage of TMP. This could be explained in terms of the electron donor effect of TMP. Density functional theory (DFT) calculations further confirm the experimental results that the charge transfer is from TMP to silver surface rather than reversely. Natural bond orbital (NBO) analysis indicates that the red shift of C≡N stretching mode is due the increase of electronic populations of π* orbital of C≡N bond induced by coadsorbed TMP, consequently the C≡N bond is weakened, and the νCN shifts to lower wavenumbers. An NBO analysis also indicates that the conjugated effect between S atom and C≡N bond could easily make the charge transfer from silver surface to C≡N bond. Copyright © 2008 John Wiley & Sons, Ltd.     

高压对β-胡萝卜素分子结构及π-电子离域影响的拉曼光谱研究

利用金刚石对顶砧在常压至12.85 GPa条件下对β-胡萝卜素进行了原位高压拉曼光谱测量,讨论了β-胡萝卜素分子特征峰频率随压力的变化规律及其π-电子离域受压力的影响。实验结果表明,β-胡萝卜素的各特征峰均向高波数移动,其主要的三个特征峰的拉曼频率与压力的关系为：ν₁(CC)=4.74P+1 511.4, ν₂(C—C)=2.55P+1 157.6和ν₃(CH₃)=2.25P+1 011.3,β-胡萝卜素的ν₁+ν₂和频峰在5.38 GPa的压力条件下发生劈裂。对实验结果进一步分析发现随压力增大β-胡萝卜素分子的β环扭转变化使其π-电子离域程度变弱, 导致β-胡萝卜素分子主链上的碳碳双键比碳碳单键更容易压缩。     

Vibrational spectra of polaprezinc,a polymeric Zn(II) complex of carnosine

Polaprezinc, the Zn(II) complex of the dipeptide carnosine (β‐alanyl histidine) presents an interesting biological and pharmacological activity, specially as an anti‐ulcer agent. The infrared and Raman spectra of this compound were recorded and briefly discussed. Some comparisons were made with related complexes and with free carnosine. The results confirm the coordination environment of the Zn(II) cation, constituted by the terminal amino N‐atom, the deprotonated amide N‐atom and one carboxylate oxygen of one dipeptide molecule and the N‐atom of the imidazole moiety of a second carnosine molecule. Copyright © 2007 John Wiley & Sons, Ltd.     

Influence of pressure effect on Fermi resonance in binary solution

The Fermi resonance behaviours of the two groups of binary solutions --- pyridine and methanol, benzene and carbon tetrachloride, under different pressures are investigated according to their Raman spectra. The effect of pressure on Fermi resonance in binary solution differs significantly from that in pure liquid. In a binary solution, with the intermolecular distance shortening, the intermolecular interaction potential increases, the shift rates of the Raman spectral lines increase, the spectral line splitting occurs ahead of that in pure liquid, and the wavenumber separation Δ₀ between the unperturbed harmonic levels shifts more quickly, too. The Fermi resonance parameters, the coupling coefficient W and the intensity ratio R of the two Raman bands, decrease rapidly with pressure increasing, and the pressure at which Fermi resonance phenomenon disappears is much lower than that in pure liquid, especially in the solution whose molecules are of the same polarity. This article is valuable in the identification and the assignment of spectral lines under high pressure, as well as the study of high pressure effect, intermolecular interaction, and solvent effects in different cases, etc.