"Compact Formulation of Redox Systems According to GATES/GEB Principles"
written by Anna Maria Michałowska-Kaczmarczyk, Tadeusz Michałowski,
published by Journal of Analytical Sciences, Methods and Instrumentation, Vol.4 No.2, 2014
has been cited by the following article(s):
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[3] A compact, algebraic formulation of disproportionation and symproportionation in Bromine systems
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[4] Disproportionation and Symproportionation of Bromine formulated according to GATES/GEB Principles
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[5] A Distinguishing Feature of the Balance 2∙ f (O)–f (H) in Electrolytic Systems. The Reference to Titrimetric Methods of Analysis
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[6] General Properties of the Balances 2∙ f (O)-f (H) Related to Electrolytic Systems
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[7] A General Property Differentiating Between Redox and Non-Redox Electrolytic Systems and Its Consequences
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[8] A Distinguishing Feature of the Balance 2∙ f (O)− f (H) in Electrolytic Systems: The Reference to Titrimetric Methods of Analysis
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[9] Generalized electron balance (GEB) as the law of nature in electrolytic redox systems
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[10] Principles of Titrimetric Analyses According to Generalized Approach to Electrolytic Systems (GATES)
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[11] Solubility Products and Solubility Concepts
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[12] Formulation of Dynamic Redox Systems according to GATES/GEB Principles
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[13] “Why Not Stoichiometry” Versus “Stoichiometry—Why Not?” Part II: GATES in Context with Redox Systems
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[14] “Why Not Stoichiometry” Versus “Stoichiometry–Why Not?” Part III: Extension of Gates/Geb on Complex Dynamic Redox Systems
Critical Reviews in Analytical Chemistry, 2014
[15] Generalized Electron Balance for Dynamic Redox Systems in Mixed-Solvent Media
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[16] Formulation of Titration Curves for Some Redox Systems
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[17] Disproportionation Reactions of HIO and NaIO in Static and Dynamic Systems
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[18] Linear Dependence of Balances for Non-Redox Electrolytic Systems
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[19] GATES as the Unique Tool for Simulation of Electrolytic Redox and Non-Redox Systems
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