Written by: Shawn.Adams2@unt.edu
Dr. Guido Verbeck and his group had 2 articles chosen as the Cover Art.
- "A comparative study of microporous polyolefin silica-based paper and cellulose paper
substrates utilizing paper spray-mass spectrometry in drug analysis," Analytical Methods.
- Abstract: This comparative study proposes an efficient technique by employing a synthetic substrate,
which is commercially available, for direct, sensitive, efficient and fast analysis
in Paper Spray Mass Spectrometry (PS-MS). The Teslin® substrate is a well-known synthetic
paper used in the printing industry, and it is made with a single-layered, microporous
polyolefin-silica matrix. Currently, filter paper is one of the most commonly used
natural cellulose fiber-based substrates in PS-MS. In this study, the analytical performance
of Teslin® vs. filter paper was determined by measuring different physical characteristics
such as porosity, solvent elution efficiency and sensitivity of both substrates. The
key result of electrostatic-spray ionization in the hydrophobic Teslin® substrate
was more efficient detection and direct analysis of a smaller amount of drug samples
(1 μL) with an improved signal sensitivity of 26.94-fold in comparison to filter paper.
It has been demonstrated that the efficiency of reproducibility of the analyte, signal-noise
ratio, and constant longer active signal (>2 min) were notably improved with the hydrophobicity
of Teslin® paper by eliminating chromatographic effects. The limit of detection for
drug analysis was reported to be in the lower μg mL−1 range.
- "True one cell chemical analysis: a review," Analyst.
- Abstract: The constantly growing field of True One Cell (TOC) analysis has provided important
information on the direct chemical composition of various cells and cellular components.
Since the heterogeneity of individual cells has been established, more researchers
are interested in the chemical differences between individual cells; TOC is the only
form of analysis that can provide this information. This has resulted in the constant
development of new technologies and methods. This review highlights the common techniques
for micro- and nanomanipulation, Raman spectroscopy, microscopy, and mass spectrometric
imaging as they pertain to TOC chemical analysis.