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[1]
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Thermodynamic Formulation of Electrolytic Redox Systems According to GATES/GEB Principles
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Kaczmarczyk… - J Chem Edu Res Prac …,
2022 |
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[2]
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Physicochemical and Analytical Implications of GATES/GEB Principles
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Kaczmarczyk, T Michałowski - Journal ISSN,
2021 |
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[3]
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EFFECT OF CLOVE OIL ON THE BIOCHEMICAL PROFILE OF OVOTESTIS AND HEPATOPANCREAS OF Achatina fulica
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Journal of Experimental Biology,
2020 |
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[4]
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GATES/GEB as the Best Thermodynamic Approach to Electrolytic Redox Systems-A Review
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Kaczmarczyk… - Journal of New …,
2020 |
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[5]
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Some detailed remarks on elemental and core balances formulated for non-redox and redox electrolytic systems
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2020 |
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[6]
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General properties of the balance 2∙ f (O)–f (H) in electrolytic systems some detailed remarks on elemental versus core balances
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2019 |
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[7]
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Further remarks on the new criterion differentiating between Non-Redox and Redox Electrolytic Systems
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2019 |
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[8]
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General Properties of the Balance 2f (O)-f (H) in Electrolytic systems. Some Detailed Remarks on Elemental versus Core Balances
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2019 |
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[9]
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The new paradigm in thermodynamic formulation of electrolytic systems–A review
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2019 |
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[10]
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GATES/GEB as the New Paradigm for Electrolytic Redox Systems
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2019 |
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[11]
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A compact, algebraic formulation of disproportionation and symproportionation in Bromine systems
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2018 |
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[12]
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The Balance 2∙ f (O)–f (H) as a Cornerstone in Formulation of Electrolytic Systems
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2018 |
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[13]
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Formulation of Simple Electrolytic Redox Systems According to GATES/GEB Principles
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2018 |
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[14]
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Disproportionation and Symproportionation of Bromine formulated according to GATES/GEB Principles
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2018 |
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[15]
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The Distinguishing Role of 2. f (O)–f (H) in Electrolytic Systems
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Biomedical Journal of Scientific & Technical Research,
2018 |
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[16]
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World's largest Science, Technology & Medicine Open Access book publisher
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2017 |
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[17]
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Public health aspect of manure management in urban and peri-urban livestock farming in developing countries
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2017 |
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[18]
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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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2017 |
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[19]
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Solubility Products and Solubility Concepts
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Descriptive Inorganic Chemistry Researches Of Metal Compounds,
2017 |
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[20]
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Oxidation Number, Oxidant and Reductant as Derivative Concepts Within GATES/GEB Formulation
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2017 |
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[21]
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General Properties of the Balances 2∙ f (O)-f (H) Related to Electrolytic Systems
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2017 |
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[22]
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A General Property Differentiating Between Redox and Non-Redox Electrolytic Systems and Its Consequences
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International Journal of Mathematics and Statistics Invention,
2017 |
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[23]
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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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Advances In Titration Techniques,
2017 |
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[24]
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Generalized Electron Balance (GEB) as the Law of Nature in Electrolytic Redox Systems
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Redox Principles And Advanced Applications,
2017 |
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[25]
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Principles of Titrimetric Analyses According to Generalized Approach to Electrolytic Systems (GATES)
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Advances In Titration Techniques,
2017 |
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[26]
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Formulation of Dynamic Redox Systems according to GATES/GEB Principles
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2016 |
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[27]
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“Why Not Stoichiometry” Versus “Stoichiometry—Why Not?” Part II: GATES in Context with Redox Systems
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Critical Reviews in Analytical Chemistry,
2015 |
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[28]
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General Relation Valid for Electrolytic Systems
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Journal of Analytical Sciences, Methods and Instrumentation,
2015 |
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[29]
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Disproportionation Reactions of HIO and NaIO in Static and Dynamic Systems
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American Journal of Analytical Chemistry,
2014 |
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[30]
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Linear Dependence of Balances for Non-Redox Electrolytic Systems
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American Journal of Analytical Chemistry,
2014 |
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