Book Volume 6
Analytical Techniques for Analysis of Metals and Minerals in Water
Page: 1-35 (35)
Author: Saša Đurović*, Saša Šorgić, Saša Popov and Snežana Filip
DOI: 10.2174/9789815124156123060003
PDF Price: $15
Abstract
Investigation of the water samples for content of bulk, trace and heavy
metals is of great importance for the humanity. For this purpose, a large number of
analytical techniques have been developed. Beside analytical techniques, there are
systems and methods for pretreatment and preparation of the samples for analysis.
There are also procedures for sampling and sample preservation which are essential for
the final result. There are several available instrumental techniques for the analysis of
metals in water samples (AAS, GFAAS, ICP-OES, ICP-MS, etc.), which can be
divided into several groups such as volumetric, spectrophotometric, electrochemical,
chromatographic, etc. All these techniques may be coupled among themselves and with
techniques for sample preparation such as preconcentration techniques. This improves
the performance of the applied techniques and decrease the possibility of the
contamination of samples. This chapter provides an insight into all these processes and
issues from sampling, sample conservation, pretreatment and preparation to the
application of different analytical techniques for analysis of water samples.
Lipidomics Techniques and their Application for Food Nutrition and Health
Page: 36-68 (33)
Author: Shudan Huang, Jiamin Xu, Jiahui Chen, Ting Zhang, Jing Su, Xichang Wang and Jian Zhong*
DOI: 10.2174/9789815124156123060004
PDF Price: $15
Abstract
Due to the chemical complexity and wide concentration range of lipids in
biological samples, it is necessary to apply different analytical strategies to identify and
quantify lipid species and amounts. In this book chapter, we mainly introduced the
techniques, workflow, and applications of lipidomics in food nutrition and health. First,
we mainly introduced the common lipidomics techniques, such as direct infusion mass
spectrometry-based techniques, chromatographic separation mass spectrometry-based
techniques, mass spectrometry imaging, and nuclear magnetic resonance. Second, we
described the common lipidomics workflow, including sample preparation, MS data
acquisition, and data processing. Third, we mainly discussed the application of
lipidomics in food nutrition and health. Finally, we briefly summarized and discussed
the future perspectives of lipidomics. All these discussions suggested that lipidomics
could ensure food quality, examine dietary lipid nutrition, and prevent and detect
diseases.
Recent Advances in the Analysis of Herbicides and their Transformation Products in Environmental Samples
Page: 69-139 (71)
Author: Pervinder Kaur*, Harshdeep Kaur and Makhan Singh Bhullar
DOI: 10.2174/9789815124156123060005
PDF Price: $15
Abstract
Herbicide residues in crop, soil and contamination of groundwater have
become a worldwide concern in recent decades as their presence at low concentrations
entails an unacceptable risk to human health and non-target organism. The magnitude
of exposure and concentration at a particular time may trigger bioaccumulation and bio
magnifications of herbicide residues and their degraded products, causing mutagenic,
carcinogenic and teratogenic effects on humans, flora and fauna and microbiological
living system. These atrocious circumstances have raised concern about their presence
in environmental compartments and necessitate the continuous monitoring of herbicide
residues in various matrices. However, determining the herbicide residues in the soil
and crop is challenging because of the very low concentration of analyte, complicated
sample matrices and low maximum residue limit (MRL) imposed by the regulatory
agencies. The detection limits imposed by environment quality legislation can only be
achieved by using appropriate sample preparation techniques, which comprise isolation
and concentration of the analytes with nominal matrix interference, thus allowing its
facile detection and quantification through instrumental analysis. In recent years, the
requirements for separation and pre-concentration procedures have undergone
numerous changes, and various sample preparation methods have been used. The final
step in the analytical process involves the identification and quantification of the
herbicide residues using suitable instrumentation, and over the years, herbicides have
been determined by spectrophotometric, chromatographic, electrochemical,
electrophoretic, hyphenated and biosensors. This book chapter provides a
comprehensive overview of the novelties and the advantages of different techniques
employed for the detection of herbicides and their transformation products in
environmental samples.
Nano Porous Anodic Aluminum Oxide: An Overview on its Fabrication and Potential Applications
Page: 140-163 (24)
Author: Ujjal Kumar Sur*
DOI: 10.2174/9789815124156123060006
PDF Price: $15
Abstract
The quick development in nanotechnology has raised the status of this
modern technology owing to the decrease in the sizes of structures and devices. There
has been considerable dispute concerning the future consequences of nanotechnology.
Nanotechnology has the probable ability to design many new and novel materials and
devices in smaller dimensions with broad-range applications in medicine, electronics
and sustainable energy production. Nano porous anodic aluminum oxide (AAO) films
consisting of self-organized hexagonal arrays of invariable parallel nanochannels have
been widely applied as the building block to fabricate various functional nanostructures
of different morphologies such as nanoparticles, nanowires and nanotubes. These
functional nanostructures can be potentially utilized in various applications like
magnetic storage media, optoelectronics, bio/chemical sensors, photonics and
plasmonics. This chapter describes the different fabrication processes of AAO films in
detail along with citation of a few interesting applications.
PIXE/PIGE Measurements of Archaeological Glass, its Conceptualization and Interpretation: A Case Study
Page: 164-200 (37)
Author: Roman Balvanović* and Žiga Šmit
DOI: 10.2174/9789815124156123060007
PDF Price: $15
Abstract
Reliable scientific answers to questions posed by social sciences, like
archeology, to exact sciences, like physics or chemistry, depend not only on
meaningfully posed questions, well-selected and pretreated samples and accurate and
precise measurements, but also on an area of interpretation that exists between the two
fields. This interdisciplinary area consists of many representations of measurement
data, notions, and concepts that evolve through solving particular problems. However,
this set of concepts is not always determinate, clear and consistent, obscuring the
problem and obstructing the interpretation of results. The chapter explains this starting
with a concrete example of measurements of archaeological glass using simultaneous
PIXE/PIGE measurements, explaining general and technical details of measurements,
and proceeds to show how the measurements are treated, processed, and displayed in
ways to comply with the concepts, interpret the results, and provide adequate answers
to the questions posed by archeology. The chapter also offers some possible
improvements through a few novel concepts and ways of interpretation.
Introduction
Recent Advances in Analytical Techniques is a series of updates in techniques used in chemical analysis. Each volume presents a selection of chapters that explain different analytical techniques and their use in applied research. Readers will find updated information about developments in analytical methods such as chromatography, electrochemistry, optical sensor arrays for pharmaceutical and biomedical analysis. The sixth volume of the series features five reviews which demonstrate chemical analysis techniques of different materials. - Analytical Techniques for Analysis of Metals and Minerals in Water - Lipidomics Techniques and their Application for Food Nutrition and Health - Recent Advances in the Analysis of Herbicides and their Transformation Products in Environmental Samples - Nanoporous Anodic Aluminum Oxide: An Overview on its Fabrication and Potential Applications - PIXE/PIGE Measurements of Archaeological Glass, its Conceptualization and Interpretation: A Case Study