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Related to electroanalysis: Analytical chemistry


Quantitative analysis of metals by electrolysis.
References in periodicals archive ?
In many of the most demanding of electroanalysis applications, DIAFILM EA has the ability to perform thousands of cycles, whereas other electrode materials only survive a single use.
However, the number of citation from journals likes Biotechnology Progress (02), Chemical Research in Toxicology (03), and Electroanalysis (01) are very low.
The electrochemical properties of polycrystalline synthetic diamond allow reactions to be formed on electrode surfaces, without directly chemically interacting with any of the substances present-making it ideal for waste water treatment and advanced electroanalysis sensing systems.
They outline their history; the definitions and classification of carbon pastes and CPEs; their mechanical and physicochemical properties; chemically and biologically modified CPEs; and instrumental measurement, electrochemical investigation, and electroanalysis applications with carbon paste electrodes, sensors, and detectors, with a lengthy table summarizing methods.
The text includes description of the preparation of anodic alumina membranes, the preparation of nanopatterned electrodes, the use of porous alumina and polycarbonate templates for synthesis of nanowires, and the electrochemical deposition of nanostructured oxide and metal coatings with different morphologies, as well as the use of nanoparticles and nanomaterials in lithium-ion batteries, hydrogen storage, solar cells, biosensors, and electroanalysis.
Simultaneous electroanalysis of dopamine, ascorbic acid and uric acid by poly (vinyl alcohol) covalently modified glassy carbon electrode.
The electrochemical properties of diamond films in different scientific areas, with special attention in electroanalysis, are further described.
Among specific topics are types of conducting diamond materials and their properties, applications of polycrystalline and modified functional diamond electrodes, the cathodic pretreatment of boron-doped diamond electrodes and their use in electroanalysis, modeling an electrochemical process for water treatment using diamond films, generating ozone using boron-doped diamond electrodes, electrochemical energy storage and energy conversion systems with diamond films, and DNA-modified diamond films.
Focusing on electroanalysis rather than physical electrochemistry, he sets out the fundamental of electrode reactions and the principles of electrochemical methods, and demonstrates their potential for solving real-life analytical problems.
In addition to his new role on the Board of Editors for Clinical Chemistry, Professor Meyerhoff continues to serve on the editorial/advisory boards of Biosensors & Bioelectronics, Electroanalysis, Analytica Chimica Acta, and Applied Biochemistry and Biotechnology.