Two-dimensional-Raman-terahertz spectroscopy of water: theory

We discuss the hybrid 2D-Raman-THz spectroscopy of liquid water. This two-dimensional spectroscopy is designed to directly work in the low-frequency range of the intermolecular degrees of freedom. The information content of 2D-Raman-THz spectroscopy is similar to 2D-Raman or 2D-THz spectroscopy, but its experimental implementation should be easier. That is, 2D-Raman-THz spectroscopy is a 3rd-order nonlinear spectroscopy and as such completely avoids cascading of consecutive 3rd-order signals, which turned out to be a major difficulty in 5th-order 2D-Raman spectroscopy. On the other hand, it does not require any intense THz pump-pulse, the lack of which limits 2D-THz spectroscopy to the study of semiconductor quantum wells as the currently available pulse energies are too low for molecular systems. In close analogy to 2D-Raman spectroscopy, the 2D-Raman-THz response of liquid water is simulated from an all-atom molecular dynamics simulation, and the expected spectral features are discussed.     

Raman spectroscopy in the near infrared – a most capable method of vibrational spectroscopy

Raman spectroscopy has enjoyed a dramatic improvement during the last years: The interference by the fluorescence of impurities is virtually eliminated, the sample preparation is considerably easier as for infrared spectroscopy and many applications in routine analytics, quality control and process control in various branches of industry are now possible. It is shown that the up-to-date near-infrared Raman spectrometers now meet most demands for a modern analytical instrument concerning applicability, analytical information and convenience. It can be anticipated that Raman spectroscopy will catch up infrared spectroscopy, the current workhorse of vibrational spectroscopy.     

超额光谱及其研究进展

超额光谱是借助于热力学中超额函数的概念提出的,是经典热力学函数的补充,它可以提供丰富的分子间相互作用的信息。本文首先介绍了超额光谱的概念和测定方法。然后介绍了超额光谱的用途：提高谱图的表观分辨率、判断体系的非理想性、判断分子间选择性相互作用的优先性、判断二态性以及稳定缔合体的存在和提供分子电荷分布的信息等。其后介绍了超额光谱方法学的若干新进展：超额拉曼光谱、超额偏摩尔红外光谱和固体假二元超额光谱。最后,介绍了超额光谱在几个方面的最新应用：离子液体和分子溶剂体系中的氢键、苯衍生物和二甲基亚砜(DMSO)中的卤键、无机阴阳离子和水的相互作用。综上,超额光谱可以帮助我们得到更加丰富的分子间相互作用的信息,为该领域的研究打开了一扇新窗户。     

Spark discharge assisted laser induced breakdown spectroscopy

Laser induced breakdown spectroscopy is combined with a spark discharge to operate in a laser triggered spark discharge mode. This spark discharge laser induced breakdown spectroscopy (SD-LIBS) is evaluated for Al and Cu targets in air under atmospheric pressure. Significant enhancement in the measured line intensities and the signal-to-background ratios, which depend on the spark discharge voltage and the laser fluence, is observed in spark discharge laser induced breakdown spectroscopy when compared to laser induced breakdown spectroscopy alone for similar laser conditions. The measured line intensities increase with the applied voltage for both targets, and the ratio of the measured line intensity using spark discharge laser induced breakdown spectroscopy to that using laser induced breakdown spectroscopy is found to increase as the laser fluence is decreased. For Al II 358.56, such intensity enhancement ratio increases from 50 to 400 as the laser fluence is decreased from 48 to 4 J/cm² at an applied voltage of 3.5 kV. Thus, spark discharge laser induced breakdown spectroscopy allows for using laser pulses with relatively low energy to ablate the studied material, causing less ablation, and hence less damage to its surface. Moreover, applying spark discharge laser induced breakdown spectroscopy gives up to 6-fold enhancement in the S / B ratio, compared to those obtained with laser induced breakdown spectroscopy for the investigated spectral emission lines.     

Analytical applications of synchronous fluorescence spectroscopy

A review is presented of the fundamental principles and analytical applications of synchronous excitation fluorescence spectroscopy, constant-energy synchronous fluorescence spectroscopy and variable-separation synchronous excitation fluorescence spectroscopy.     

Development of a threshold positron spectrometer

We introduce a new positron spectroscopy experimental technique that we call threshold positron spectroscopy, by analogy with its similar threshold photoelectron spectroscopy. An apparatus that is being developed to explore this technique is described in this work.     

Vibrational spectroscopy for chromatographic detection in environmental analysis

Most environmental samples are complex mixtures and the molecular structural information provided by vibrational spectroscopy is therefore important in environmental analysis. The application of matrix isolation spectroscopy and resonance Raman spectroscopy for the detection of eluents in gas and liquid chromatography is reviewed.     

Early events and some later developments in microwave spectroscopy

The early history of microwave spectroscopy is reviewed. New directions in the field are indicated. These include: further extensions of coherent submillimeter wave spectroscopy, microwave spectroscopy of molecules in interstellar space, microwave-infrared laser double resonance, spectroscopy of ionized molecules and transient molecular radicals, studies of hydrogen-bonded molecular complexes and atom-molecule complexes, observations of “forbidden” rotational transitions in symmetric-top and spherical-top molecules, and new developments in high-temperature spectroscopy.     

Controlling the density of amine sites on silica surfaces using benzyl spacers

The synthesis and characterization of benzyl-spaced aminopropyl-functionalized mesoporous silica is reported by a method designed to reduce silanol-amine and amine-amine interactions. The new material is characterized by N(2) physisorption, thermogravimetric analysis, potentiometric titration, X-ray diffraction, FT-Raman spectroscopy, and (13)C and (29)Si solid-state NMR spectroscopy. The degree of clustering of the amines is studied by solid-state fluorescence spectroscopy of 1-pyrenecarboxylic acid bound to the deprotected benzyl-spaced aminosilica. The results obtained provide evidence of an amine loading comparable to traditional dense amine grafting approaches on SBA-15. Thermogravimetric analysis, FT-Raman spectroscopy, and (13)C solid-state NMR spectroscopy results show evidence that the protected imine can be quantitatively cleaved to yield the corresponding amine. As evidenced by fluorescence spectroscopy, the benzyl-spaced material is isolated enough to prevent excimer formation of the probe molecule, unlike aminopropyl-functionalized silica materials prepared by traditional grafting approaches.     

Two-Dimensional Solid-State NMR Spectroscopy: New Possibilities for the Investigation of the Structure and Dynamics of Solid Polymers [New Analytical Methods (38)]

NMR spectroscopy is an effective method not only for examining liquid samples but also for characterizing molecular sturcture, order and dynamics in amorphous and ordered solids. Recent developments in the area of solid-state NMR spectroscopy span from model-dependent studies of conventional one-dimensional spectra to the more definitive two-dimensional (2D) spectra which provide more specific information. For example, with 2D-NMR spectroscopy it is possible to determine the orientational distribution functions of molecular segments in drawn polymers and to distinguish different mechanisms of complex molecular motions. Following an introduction to basic NMR spectroscopy, an overview of the current state-of-the-art of 2D methods in solid-state NMR spectroscopy is presented and demonstrated with selected examples.     

Vibrational spectroscopy: a 'vanishing' discipline?

The aim of this tutorial review is to convince a broad readership that vibrational spectroscopy, although according to some vibrational spectroscopists seemingly less in focus nowadays than in days past, is far from 'dead'. It may seem to some that infrared and Raman spectroscopy are less in focus than in times past, despite the unique analytical capabilities. Vibrational spectroscopy is particularly powerful for non-destructive characterisation of substances, including living material. But compared to the past, a shift in applications has taken place, bringing new opportunities. This is partly due to the introduction of new features, including imaging and 2D correlation spectroscopy. Another factor is the recognition that vibrational spectroscopy can play a role in new rather than only in the traditional fields of application, e.g. new applications in the life-science field (living cells, cancer research), the characterisation of soil. But also the traditional application in catalysis sees new development within the context of Operando spectroscopy.     

Applications of Near Infrared Spectrometry Technique in Petroleum Products Analysis

Near infrared (NIR) spectroscopy has become a popular technique for process analytical chemistry and is being studied extensively in the petrochemical industry fields. NIR spectroscopy has several attractive properties:hardly any sample preparation is required,it is a nondestructive method, and it has a high signal-to-noise ratio. Furthermore, NIR spectroscopy has the possibility of remote sensing using optical fibers. All these advantages make NIR spectroscopy very suitable for on-line quality control in process analytical chemistry. In this paper some recent applications of NIR in analysis of petroleum products are reviewed.     

Characterization of reaction intermediates by ion spectroscopy

In the last decade, we have experienced massive progress in spectroscopic methods for mass-selected ions. The aim of this tutorial review is to present action spectroscopy as a powerful tool for the investigation of ionic reaction intermediates. Examples span from ultraviolet and infrared photodissociation spectroscopy of model reaction intermediates to applications of infrared multiphoton dissociation spectroscopy (IRMPD) to intermediates directly sampled from reaction mixtures. The first example of double resonance IR-UV spectroscopy of model intermediates in an organometallic reaction is also mentioned.     

Near and mid-infrared photoacoustic analysis of principal components of foodstuffs

Photoacoustic spectroscopy, especially in the near infrared, for principal food component analysis (protein, fat, carbohydrate and moisture contents) is discussed. The thermal diffusion length is discussed as is the problem of signal saturation. An illustrative comparison of photoacoustic spectroscopy and Fourier transform mid-infrared-attenuated total reflectance spectroscopy (FTIR-ATR) as applied to cheese analysis is given.     

飞秒时间分辨荧光非共线光参量放大光谱技术

时间分辨荧光光谱技术是研究激发态弛豫、能量传递以及电荷转移等光化学过程的重要且直接的工具．飞秒时间分辨荧光非共线光参量放大光谱技术是一种新发展的具有高时间分辨率、宽探测带宽、高增益的时间分辨光谱技术．本文对该技术的基本原理与工作特性、系统配置、荧光收集和会聚、数据采集模式、时问分辨光谱数据处理等进行了系统阐述．最后简单介绍了飞秒时间分辨荧光非共线光参量放大光谱技术在物理、生物和化学领域的3个典型应用,并以此展现该技术的高时间分辨率、宽光谱探测及高增益优势．     

Liquid chromatography-nuclear magnetic resonance spectroscopy.

A general overview of the experimental set-up for performing analytical-scale and nanoliter-scale liquid chromatography-1H nuclear magnetic resonance spectroscopy (LC-1H-NMR) experiments is given. The high power of combining LC with 1H-NMR spectroscopy is demonstrated by two examples, where NMR acquisition was performed either in the continuous-flow mode on the analytical scale or in the stopped-flow mode on the nanoliter scale. Current developments employing the on-line coupling of capillary as well as supercritical fluid separation methods with 1H-NMR spectroscopy together with LC-13C-NMR spectroscopy are discussed.     

高分辨脉冲场致电离光电子谱

本文介绍高分辨光电子谱的发展概况, 简要说明阈值光电子谱和脉冲场致电离光电子谱的工作原理及研究进展, 着重阐述了用同步辐射光源获得高分辨光电子谱的最新研究结果。