Topic Review
Zwitterionics Surfactants
Zwitterions are molecules that contain both a positive and negative charge within the same molecule. They are electrically neutral as a whole, but have distinct positive and negative regions within the molecule. The most common example of a zwitterion is the amino acid molecule, which contains both a carboxyl group (-COOH) and an amino group (-NH2) within the same molecule. The carboxyl group is negatively charged at physiological pH, while the amino group is positively charged, resulting in a net charge of zero for the molecule as a whole. Zwitterions have unique properties that make them useful in various applications. They are often used as buffer solutions in biochemistry and molecular biology, as they can maintain a stable pH even when small amounts of acid or base are added. Zwitterions are also used as surfactants, due to their amphipathic nature (i.e. they have both hydrophilic and hydrophobic regions). They are used in applications such as detergents and fabric softeners, where they can help to reduce surface tension and improve the wetting and dispersibility of the product. Zwitterionic surfactants have a unique structure that allows them to interact with a wide range of substances, making them useful in various applications. The unique combination of positive and negative charges in the same molecule provides a balance that enables them to interact with both hydrophilic and hydrophobic substances, allowing them to solubilize oils and greases, emulsify water-insoluble substances, and reduce surface tension.
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  • 24 Mar 2023
Topic Review
Volatiles in Food Products
The evaluation of volatiles in food is an important aspect of food production. It gives knowledge about the quality of foods and their relationship to consumers’ choices. Alcohols, aldehydes, acids, esters, terpenes, pyrazines, and furans are the main chemical groups that are involved in aroma formation. They are products of food processing: thermal treatment, fermentation, storage, etc. Food aroma is a mixture of varied molecules. Because of this, the analysis of aroma composition can be challenging. 
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  • 27 Sep 2021
Topic Review
Vitamin Analysis Using Electroanalytical Techniques
Vitamins comprise a group of organic chemical compounds that contribute significantly to the normal functioning of living organisms. Although they are biosynthesized in living organisms, some are also obtained from the diet to meet the needs of organisms, which is why they are characterized as essential chemical compounds. The lack, or low concentrations, of vitamins in the human body causes the development of metabolic dysfunctions, and for this reason their daily intake with food or as supplements, as well as the control of their levels, are necessary. The determination of vitamins is mainly accomplished by using analytical methods, such as chromatographic, spectroscopic, and spectrometric methods, while studies are carried out to develop new and faster methodologies and techniques for their analysis such as electroanalytical methods, the most common of which are voltammetry methods.
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  • 28 Jun 2023
Biography
Victoria Samanidou
Dr Victoria Samanidou is Full Professor and Director of the Laboratory of Analytical Chemistry in the Department of Chemistry of Aristotle University of Thessaloniki, Greece. Her research interests focus on the development of sample preparation methods using sorptive extraction prior to chromatographic analysis. She has co-authored 202 original research articles in peer reviewed journals and
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  • 19 Aug 2022
Topic Review
Vibrational Spectroscopic Approaches in Phytochrome Research
Phytochromes are biological photoswitches that translate light into physiological functions. Spectroscopic techniques are essential tools for molecular research into these photoreceptors.
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  • 30 Jun 2023
Topic Review
Vertical Graphene
Vertical Graphene is obtained using the plasma-enhanced chemical vapor deposition (PECVD) method, and different VG types with other properties can be obtained by changing the process parameters. VG is part of the graphene family; properties such as excellent electrical conductivity, thermal conductivity, chemical stability, and a large, specific surface area make it suitable for biomedical applications. Examples of biomedical applications in which VG is used are biosensors, electrochemical sensors, modified surfaces for bone growth, regeneration, and for antimicrobial effects.
  • 365
  • 04 May 2023
Topic Review
Unpacking Phthalates from Obscurity in the Environment
Phthalates (PAEs) are a group of synthetic esters of phthalic acid compounds mostly used as plasticizers in plastic materials but are widely applied in most industries and products. As plasticizers in plastic materials, they are not chemically bound to the polymeric matrix and easily leach out. Logically, PAEs should be prevalent in the environment, but their prevalence, transport, fate, and effects have been largely unknown until recently. This has been attributed, inter alia, to a lack of standardized analytical procedures for identifying them in complex matrices.
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  • 20 Feb 2024
Topic Review
Types of Electrochemical Sensors
The world of sensors is diverse and is advancing at a rapid pace due to the fact of its high demand and constant technological improvements. Electrochemical sensors provide a low-cost and convenient solution for the detection of variable analytes and are widely utilized in agriculture, food, and oil industries as well as in environmental and biomedical applications. The popularity of electrochemical sensing stems from two main advantages: the variability of the reporting signals, such as the voltage, current, overall power output, or electrochemical impedance, and the low theoretical detection limits that originate from the differences in the Faradaic and nonFaradaic currents.
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  • 09 Nov 2022
Topic Review
Two-Dimensional Liquid Chromatography
Two-dimensional liquid chromatography has deservedly won a dominant position in the family of (liquid chromatography) LC techniques. Even though liquid chromatography has great flexibility, regarding the different forms in which it has prevailed and the variety of samples it can analyze, it is unable to provide high resolving power in a short period of time. It is not able to deal with two types of mixtures: those consisting of thousands of analytes such as biological samples and those consisting of closely related compounds which cannot be separated by their physicochemical properties, such as enantiomers.
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  • 11 Jul 2023
Topic Review
Trending Methods for Rapid Cannabinoids Detection
Roadside testing of illicit drugs such as tetrahydrocannabinol (THC) requires simple, rapid, and cost-effective methods. The need for non-invasive detection tools has led to the development of selective and sensitive platforms, able to detect phyto- and synthetic cannabinoids by means of their main metabolites in breath, saliva, and urine samples. One may estimate the time passed from drug exposure and the frequency of use by corroborating the detection results with pharmacokinetic data. Modified surfaces can also act as filters that allow only the target analyte to participate in the electrode reaction. In the case of cannabinoids, as in the case of other drugs, the investigation of the mechanism of action within the organism is the basis of biosensor development.
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