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Advanced Potentiometry provides a platform for the accurate interpretation of potentiometric titration data. It accurately presents the calculation of stability constants and equilibrium processes without systematic errors. This authoritative monograph details the calculation of the total potential anomalies/systematic errors in emf cells containing either mixtures of strong electrolytes or equilibrium systems at all the experimental conditions generally used in potetiometric titrations. It also presents a critical analysis of these methods. The book details a method that is correct and free from systematic errors as well as one that correctly describes both nature and the environment. It is the ideal resource for high school teachers, lecturers, researchers, PhD graduates and undergraduate students working in the fields of solution chemistry, physical chemistry, inorganic chemistry and analytical chemistry and environmental research.
Chemical detectors. --- Chemistry. --- Electrochemical analysis. --- Potentiometry. --- Potentiometry --- Chemistry --- Analytical Chemistry --- Physical & Theoretical Chemistry --- Physical Sciences & Mathematics --- Error analysis (Mathematics) --- Errors, Theory of --- Potentiometric analysis --- Potentiometric titration --- Titration, Potentiometric --- Analytical chemistry. --- Physical chemistry. --- Physical Chemistry. --- Analytical Chemistry. --- Instrumental variables (Statistics) --- Mathematical statistics --- Numerical analysis --- Statistics --- Electrochemical analysis --- Chemistry, Physical organic. --- Analytical biochemistry. --- Analytic biochemistry --- Biochemistry --- Chemistry, Analytic --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Bioanalytic chemistry --- Bioanalytical chemistry --- Analytical chemistry --- Analysis, Chemical --- Analytic chemistry --- Chemical analysis --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry
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For many chemists, potentiometry is the first analytical procedure that they encounter, during the use of an electrode to measure pH. The advances in the field of ion selective electrodes now make it a valuable technique in the modern analytical laboratory.
Analytische chemie: elektrochemie --- Potentiometrie --- Chemistry, Analytic --- Electrodes, Ion selective --- Potentiometry --- Basic Sciences. Chemistry --- Programmed instruction. --- Analytical Chemistry. --- 544.6 --- analytische chemie (scheikunde) --- elektrochemie --- elektroden --- fysicochemische analyse --- fysische chemie --- ionen --- potentiometrie --- Potentiometric analysis --- Potentiometric titration --- Titration, Potentiometric --- Electrochemical analysis --- Ion selective electrodes --- Ion sensitive electrodes --- Specific ion electrodes --- Electrodes --- Ion-permeable membranes --- Programmed instruction --- Analytical methods --- fysicochemie --- analytische chemie --- 543.1 --- 543.544 --- Analytische chemie --- Ion-selectieve elektroden --- 543.257.1 --- 543.257.1 Potentiometric analysis. Determination of hydrogen ion concentration. pH value --- Potentiometric analysis. Determination of hydrogen ion concentration. pH value --- Chimie analytique --- Enseignement programmé --- Analytical chemistry --- Analysis, Chemical --- Analytic chemistry --- Chemical analysis --- Chemistry --- Potentiometry - Programmed instruction --- Electrodes, Ion selective - Programmed instruction --- Chemistry, Analytic - Programmed instruction --- Open learning --- Electrode ion selective --- Electrodes, Ion selective. --- Potentiometry. --- Analytical methods. --- Électrodes sélectives d'ions. --- Potentiométrie. --- Enseignement programmé.
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Ion-sensitive membrane-based sensors and ionic processes in bio-membranes are the focus of this book. The chapters are carefully chosen to characterize essential research trends, applications, and perspectives. They include solid contact ion-selective and reference electrodes and their electroanalytical behavior in zero and nonzero-current modes, planar and miniaturized multielectrode platforms, ion monitoring in extreme sports, and transmembrane transport through living endothelial cells to find the volume. This book is crowned by the consideration of a yet unexplored ion status in a mitochondrial matrix
potentiometry --- reference electrode --- solid contact --- heterogenous membranes --- polymer membranes --- ion transport --- water transport --- epithelium --- cystic fibrosis --- mitochondrion --- calcium carbonates --- calcium phosphates --- calcium polyphosphates --- ATP production --- hypoxia --- ischemia --- pre-conditioning --- ion selective electrodes --- wearable sensors --- solid-contact materials --- response mechanism --- anhydrous and hydrous ruthenium dioxide --- porous microstructure --- high capacity --- stable measuring signal --- chemically modified electrodes --- membrane-coated voltammetric sensors --- antidepressant and immunosuppressant drugs --- detection limit --- resolution --- ion-selective membranes --- components leakage --- incorporation --- all-solid-state sensors --- n/a
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