Interview of the Month

Spectroscopy on Mars: A Look at What’s Been Uncovered About the Red Planet

Spectroscopy has played a significant role in the Mars expeditions, including the confirmation of the former presence of water on the Red Planet. Raymond Arvidson, the James S. McDonnell Distinguished University Professor at Washington University in Saint Louis, Missouri, is involved with the various National Aeronautics and Space Administration (NASA) missions to Mars and the spectroscopy incorporated in the instruments sent there. Here, Arvidson discusses those techniques, including a hyperspectral imaging system, an emission spectrometer, and an X-ray spectrometer, and what the results of the missions indicate about Mars so far.


Spectroscopy Announces the First Winner of the Emerging Leader in Molecular Spectroscopy Award

By Spectroscopy Editors

Matthew Baker, a senior lecturer in chemistry at the University of Strathclyde, in Glasgow, has won the inaugural Emerging Leader in Molecular Spectroscopy Award, which is sponsored by Spectroscopy magazine. This new annual award recognizes the achievements and aspirations of a talented young molecular spectroscopist, selected by an independent scientific committee. The award will be presented to Baker at the SciX 2016 conference in September, where he will give a plenary lecture and be honored in an award symposium.

A Process for Successful Infrared Spectral Interpretation

By Brian C. Smith

A 12-step program to help you be more successful at interpreting IR spectra

Advancing the Application of NIR Spectroscopy

By Spectroscopy Editors

Although near-infrared (NIR) spectroscopy is not a particularly sensitive technique, it can be implemented with little or no sample preparation and thus is well suited to applications such as process monitoring, materials science, and medical uses. We asked a panel of experts to comment on important current applications of NIR, as well as emerging new areas of application and the challenges involved in those newer applications.

In Situ FTIR Analysis of Soils for Forensic Applications

By A.H. Jean Robertson, Angela M. Main, Lucinda J. Robinson, Lorna A. Dawson

Although handheld FT-IR spectrometers now make it possible to carry out field-based FT-IR analysis of soils at a crime scene, reliable and tested protocols are not yet available for such work. Here, we discuss sampling options and describe tests of a methodology that is being eveloped for in situ FT-IR analysis of soil samples.

Using Near-Infrared Spectroscopy to Monitor the Curing Reaction of Silicone Adhesives

By N. Pemberger, L.K.H. Bittner, C. W. Huck

Quality control of silicones used in medicinal implants is challenging, and traditional methods waste a lot of raw material. In this study, NIR spectroscopy has been used to replace the traditional rheometric measurements, with excellent results. The NIR method enables improved quality control and a more economical process.


Using SERS to Study How Cells Respond to Pharmaceuticals

By Spectroscopy Editors

Colin Campbell discusses his work applying SERS to biomedical applications.

Polarized Raman Spectroscopy of Aligned Semiconducting Single-Walled Carbon Nanotubes

By Amir Mashal, Dick Wieboldt, Katherine Jinkins, Michael S. Arnold

A look at how polarized Raman imaging can be used to characterize alignment in large regions of aligned semiconducting carbon nanotube films.

Recent Developments in Handheld Raman Spectroscopy for Industry, Pharma, Forensics, and Homeland Security: 532-nm Excitation Revisited

By Aleksandr V. Mikhonin, Susan Hodi, Laurence A. Nafie, Rina K. Dukor

Handheld Raman using 532-nm excitation is an effective option for field analysis, in applications ranging from the analysis of biopharmaceuticals to explosive detection.

Raman Spectroscopy as a Tool for Analytical Quality Control in a Hospital Environment

By Karen A. Esmonde-White

Two applications of Raman spectroscopy in a hospital environment are reviewed: analytical quality control for compounded formulations and gas analysis during general anesthesia.

Evaluation of Eye Shadow Compounds Using Raman Microspectroscopy

By Richard A. Larsen, Mie Okazaki, Takeo Soejima, Ken-ichi Akao, Kohei Tamura, Koushi Nagamori

A method for the identification and spatial discrimination of the components in eye shadow samples using Raman microspectroscopy.


Overview of High-Efficiency Transmission Gratings for Molecular Spectroscopy

By Thomas Rasmussen

This article provides a basic overview of the capabilities of transmission gratings optimized for molecular spectroscopy.

Scattering Impact Analysis and Correction for Leaf Biochemical Parameter Estimation Using Vis–NIR Spectroscopy

By Qianxuan Zhang, Qingbo Li, Guangjun Zhang

Simulated leaf spectral data were generated to analyze scattering impact and then compared to experimental data to validate the conclusions of the simulation.

An Integration of Modified Uninformative Variable Elimination and Wavelet Packet Transform for Variable Selection

By Di Wu, Xiaojing Chen, Yong He

The wavelet packet transform (WPT) combined with the modified uninformative variable elimination (MUVE) method (WPT–MUVE) is proposed to select variables for multivariate calibration of spectral data.

Analysis of Fructose, Glycine, and Triglycine Using HPLC UV-vis Detection and Evaporative Light-Scattering Detection

By A.B. de Haan, R. Wijntje, H.A.J.M. Bevers

The development of a method for the simultaneous determination of glycine, triglycine and fructose using UV–vis and evaporative light-scattering detection (ELSD) is described. This was necessary as part of a research project dealing with the recovery of functional peptides from aqueous streams on an industrial scale using adsorption or related technologies. Fructose is barely detectable by UV–vis as it lacks detectable functionalities, while glycine and triglycine are both UV–vis sensitive. An NH2 phase was chosen as a column and separation was obtained within seven minutes on a 250 X 4.6 mm column. Limits of detection are approximately 40 mg fructose/L, 4 mg glycine/L and 0.05 mg triglycine/L. Calibration functions are linear in a range of 40–1400 mg/L for fructose, 5–200 mg/L for glycine and 0.5–70 mg/L for triglycine.

Spectroscopy in Space: Hubble and the Cosmic Origins Spectrograph

By Spectroscopy Editors

In an upcoming spacewalk, shuttle astronauts will swap the Corrective Optics Space Telescope Axial Replacement (COSTAR) device for the new Cosmic Origins Spectrograph (COS).

Peer-Reviewed Articles

Emerging Trends and Opportunities in Discrete-Frequency Infrared and Raman Spectroscopic Imaging

By Tomasz P. Wrobel, Matthew R. Kole, Rohit Bhargava

Recent advances in instrumentation have enabled new forms of vibrational chemical imaging, including discrete-frequency infrared (DFIR) microscopy and stimulated Raman scattering (SRS) microscopy. These technologies may represent a fundamental shift in how we approach spectroscopic imaging.

Preparation of Pharmaceutical Samples for Elemental Impurities Analysis: Some Potential Approaches

By Nancy Lewen

As analysts prepare to meet the requirements of the new United States Pharmacopeia and International Conference on Harmonization standards on elemental impurities, they need to understand how to choose the most suitable sample preparation approach.

Effect of Azimuthal Angle on Infrared Diffuse Reflection Spectra of Fabrics

By Stephanie A. DeJong, Brianna M. Cassidy, Zhenyu Lu, Megan R. Pearl, Jessica N. McCutcheon, Wayne O’Brien, Nicholas D. Boltin, Ray G. Belliveau, Stephen L. Morgan, M. L. Myrick

In forensics, IR can be useful for detecting fluids on fabric. But it is critical to understand the variability in the fabric spectra. In this study, the authors investigate the effect of the sample azimuthal angle variability on the spectra, and present an approach to minimize that effect.


Proceeds from Pittcon 2016 Award Grants to Fund Science Education Grants at the Elementary, High School, and College Levels

Proceeds from Pittcon 2016 are distributed by its sponsoring societies, the Society for Analytical Chemists of Pittsburgh (SACP), and the Spectroscopy Society of Pittsburgh (SSP).

Spectroscopy at Analytica

Analytica 2016, held this week in Munich, includes strong programming in spectroscopy techniques. Two sessions—one on modern analytical spectroscopy and another on bioprocessing monitoring—are entirely dedicated to spectroscopy.

Kandice Tanner of NIH Wins Young Fluorescence Investigator Award

Kandice Tanner of the National Institutes of Health (NIH) has received the annual Young Fluorescence Investigator Award from Horiba Scientific.


What Modeling Reveals About the Properties of an Inductively Coupled Plasma

By Spectroscopy Editors

Annemie Bogaerts and Maryam Aghaei of the University of Antwerp, Belgium, are carrying out computational modeling to examine how various properties of the ICP, such as gas flow path lines and ionization effects, are affected by various factors—such as gas flow rates, applied power, and even the very presence of a mass spectrometry sampler. Using their developed model, one can predict optimum conditions for specific analyses.

How to Improve Analytical Figures of Merit of Hard-To-Ionize Elements in ICP-Based Techniques

By Spectroscopy Editors

Matrix effects in ICP-OES and ICP-MS often cause signal suppression, but can lead to signal enhancement as well. Guillermo Grindlay of the University of Alicante, in Spain, discusses his work to better understand under what conditions these matrix effects occur and what mechanisms are involved.

Questioning the Relationship Between Analyte Ion Mass and ICP-MS Matrix Effects

By Spectroscopy Editors

New studies conducted by Shi Jiao and John Olesik at The Ohio State University have important implications for understanding the fundamental causes of matrix effects in ICP-MS, and for the choice of internal standards.

Determining Trace Elements in Edible Oils Using Inductively Coupled Plasma–Optical Emission Spectrometry

By Manuel Almeida, Karolina Carpenter

During the processing of edible oils, the analysis of trace metals, which can promote oxidation, is important. This article presents a study of metals in edible oils using radial-view ICP-OES and discusses the most suitable wavelengths, background correction, and integration times.

Sample Preparation Method for Mercury Analysis in Reagent Chemicals by ICP-OES

By Yogesh Parikh, Samantha Mahmoud, James Lallo, Huifang Lang

This study shows that a direct Au3+ and HCl sample preparation method quickly and simply allows for accurate Hg quantification by ICP-OES in a wide range of sample types.

Mass Spectrometry

The Role of Liquid Chromatography–Mass Spectrometry in the Characterization of Therapeutic Monoclonal Antibodies

By Robert F. Carney, Elena Dremina, John L. Snyder, Zsuzsa Lakos

A review of the central role LC–MS plays in characterizing mAbs and biosimilars, including highlights of top-down and middle-up approaches to measure the intact masses of mAbs and their subunits, the current state of peptide mapping techniques, and glycoprofiling methods.

Analysis of Nicotine Alkaloids and Impurities in Liquids for e-Cigarettes by LC–MS, GC–MS, and ICP-MS

By Claudio Medana, Riccardo Aigotti, Cecilia Sala, Federica Dal Bello, Valentina Santoro, Daniela Gastaldi, Claudio Baiocchi

The development of various analytical MS methods to investigate the chemical composition of liquids used in electronic cigarettes and characterize their quality is presented in this study.

Rapid Quantification of Trypsin Inhibitors in Food and Feed Formulations with Electrospray Ionization Mass Spectrometry

By R. Seemamahannop, Radheshyam Panta, S. Kapila, Balaji Viswanathan

Measuring trypsin inhibitors in legumes is important to feed processors, who are concerned with providing high-quality products for animal feed. In this study, a rapid, accurate, and precise method for the quantification of trypsin inhibitor activity is evaluated.

2D-LC–MS for the Analysis of Monoclonal Antibodies and Antibody–Drug Conjugates in a Regulated Environment

By Eric Largy, Anicet Catrain, Géry Van Vyncht, Arnaud Delobel

High-resolution mass spectrometry (MS) is not readily compatible with chromatographic techniques using high-salt mobile phases. This study presents the development and use of 2D-LC–MS via an on-line desalting step for the analysis of monoclonal antibodies and antibody–drug conjugates.

Simplifying Mass Spectrometry Through New Ionization Technology: Application to Drugs and Clinical Analyses

By Sarah Trimpin, Shameemah Thawoos, I-Chung Lu, Jessica L. DeLeeuw, Khoa Hoang, Zachary J. Devereaux, Milan Pophristic, Shubhashis Chakrabarty, Joseph A. Caruso, Paul M. Stemmer, Srinivas B. Narayan, Charles N. McEwen

A newly discovered method, matrix-assisted ionization (MAI), is described for generating gas-phase ions from volatile and nonvolatile compounds. The method is both simple and sensitive.

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