Comparative Balancing of Non-Redox and Redox Electrolytic Systems and Its Consequences

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American Journal of Analytical Chemistry

ISSN Print: 2156-8251
ISSN Online: 2156-8278
www.scirp.org/journal/ajac
E-mail: ajac@scirp.org

Google-based Impact Factor: 1.71
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"Comparative Balancing of Non-Redox and Redox Electrolytic Systems and Its Consequences"
written by Anna Maria Michałowska-Kaczmarczyk, Tadeusz Michałowski,
published by American Journal of Analytical Chemistry, Vol.4 No.10A, 2013

has been cited by the following article(s):

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[1]	Thermodynamic Formulation of Electrolytic Redox Systems According to GATES/GEB Principles
	Kaczmarczyk… - J Chem Edu Res Prac …, 2022

[2]	GATES/GEB as the Best Thermodynamic Approach to Electrolytic Redox Systems-A Review
	Kaczmarczyk… - Journal of New …, 2020

[3]	Some detailed remarks on elemental and core balances formulated for non-redox and redox electrolytic systems
	2020

[4]	General properties of the balance 2∙ f (O)–f (H) in electrolytic systems some detailed remarks on elemental versus core balances
	2019

[5]	Further remarks on the new criterion differentiating between Non-Redox and Redox Electrolytic Systems
	2019

[6]	General Properties of the Balance 2f (O)-f (H) in Electrolytic systems. Some Detailed Remarks on Elemental versus Core Balances
	2019

[7]	The new paradigm in thermodynamic formulation of electrolytic systems–A review
	2019

[8]	The Distinguishing Role of 2. f (O)–f (H) in Electrolytic Systems
	Biomedical Journal of Scientific & Technical Research, 2018

[9]	Formulation of Simple Electrolytic Redox Systems According to GATES/GEB Principles
	2018

[10]	The balance 2∙ f (O)–f (H) as a keystone in formulation of electrolytic systems
	2018

[11]	Disproportionation and Symproportionation of Bromine formulated according to GATES/GEB Principles
	2018

[12]	A compact, algebraic formulation of disproportionation and symproportionation in Bromine systems
	2018

[13]	The Balance 2∙ f (O)–f (H) as a Cornerstone in Formulation of Electrolytic Systems
	2018

[14]	General Properties of the Balances 2∙ f (O)-f (H) Related to Electrolytic Systems
	2017

[15]	A Distinguishing Feature of the Balance 2∙ f (O)–f (H) in Electrolytic Systems. The Reference to Titrimetric Methods of Analysis
	2017

[16]	Oxidation Number, Oxidant and Reductant as Derivative Concepts Within GATES/GEB Formulation
	2017

[17]	A Distinguishing Feature of the Balance 2∙ f (O)− f (H) in Electrolytic Systems: The Reference to Titrimetric Methods of Analysis
	Advances In Titration Techniques, 2017

[18]	Principles of Titrimetric Analyses According to Generalized Approach to Electrolytic Systems (GATES)
	Advances In Titration Techniques, 2017

[19]	Formulation of cerimetric titration of bromide according to GATES/GEB principles
	Journal of Analytical Methods in Chemistry, 2017

[20]	A General Property Differentiating Between Redox and Non-Redox Electrolytic Systems and Its Consequences
	International Journal of Mathematics and Statistics Invention (IJMSI), 2017

[21]	Generalized Electron Balance (GEB) as the Law of Nature in Electrolytic Redox Systems
	Redox Principles And Advanced Applications, 2017

[22]	Solubility Products and Solubility Concepts
	Descriptive Inorganic Chemistry Researches Of Metal Compounds, 2017

[23]	Formulation of Dynamic Redox Systems according to GATES/GEB Principles
	Int. J. Electrochem. Sci, 2016

[24]	General Relation Valid for Electrolytic Systems
	Journal of Analytical Sciences, Methods and Instrumentation, 2015

[25]	“Why Not Stoichiometry” Versus “Stoichiometry—Why Not?” Part II: GATES in Context with Redox Systems
	Critical Reviews in Analytical Chemistry, 2015

[26]	“Why Not Stoichiometry” versus “Stoichiometry—Why Not?” Part I: General Context
	Critical Reviews in Analytical Chemistry, 2015

[27]	Speciation Diagrams in Dynamic Iodide+ Dichromate System
	Electrochimica Acta, 2015

[28]	Disproportionation Reactions of HIO and NaIO in Static and Dynamic Systems
	American Journal of Analytical Chemistry, 2014

[29]	Linear Dependence of Balances for Non-Redox Electrolytic Systems
	American Journal of Analytical Chemistry, 2014

[30]	Compact Formulation of Redox Systems According to GATES/GEB Principles
	Journal of Analytical Sciences, Methods and Instrumentation, 2014

[31]	Formulation of Titration Curves for Some Redox Systems
	American Journal of Analytical Chemistry, 2014

[32]	GATES as the Unique Tool for Simulation of Electrolytic Redox and Non-Redox Systems
	J Anal Bioanal Tech?, 2014

[33]	Generalized Electron Balance for Dynamic Redox Systems in Mixed-Solvent Media
	Journal of Analytical Sciences, Methods and Instrumentation, 2014

[34]	“Why Not Stoichiometry” Versus “Stoichiometry–Why Not?” Part III: Extension of Gates/Geb on Complex Dynamic Redox Systems
	Critical Reviews in Analytical Chemistry, 2014

[35]	Modeling of acid-base properties in binary-solvent systems
	2014

[36]	Generalized Electron Balance (GEB) as a Law of Preservation for Electrolytic Redox Systems
	2013

[1]	GATES/GEB as the Best Thermodynamic Approach to Electrolytic Redox Systems - a Review Journal of New Developments in Chemistry, 2020 DOI:10.14302/issn.2377-2549.jndc-20-3583

[2]	Handbook of Solvents 2019 DOI:10.1016/B978-1-927885-38-3.50011-5

[3]	Some Regularities Involved with Oxidation Numbers Stated in Formulation of Redox Systems According to GATES/GEB Principles Journal of Analytical, Bioanalytical and Separation Techniques, 2018 DOI:10.15436/2476-1869.17.1569

[4]	The Balance 2∙f (O) – f (H) as a Cornerstone in Formulation of Electrolytic Systems Journal of New Developments in Chemistry, 2018 DOI:10.14302/issn.2377-2549.jndc-18-2177

[5]	Redox - Principles and Advanced Applications 2017 DOI:10.5772/intechopen.69341

[6]	Descriptive Inorganic Chemistry Researches of Metal Compounds 2017 DOI:10.5772/67840

[7]	Advances in Titration Techniques 2017 DOI:10.5772/intechopen.69248

[8]	Advances in Titration Techniques 2017 DOI:10.5772/intechopen.69249

[9]	Formulation of Dynamic Redox Systems according to GATES/GEB Principles International Journal of Electrochemical Science, 2016 DOI:10.1016/S1452-3981(23)16124-4

[10]	General Relation Valid for Electrolytic Systems Journal of Analytical Sciences, Methods and Instrumentation, 2015 DOI:10.4236/jasmi.2015.54009

[11]	“Why Not Stoichiometry” versus “Stoichiometry—Why Not?” Part I: General Context Critical Reviews in Analytical Chemistry, 2015 DOI:10.1080/10408347.2014.937852

[12]	Speciation Diagrams in Dynamic Iodide + Dichromate System Electrochimica Acta, 2015 DOI:10.1016/j.electacta.2015.01.003

[13]	“Why Not Stoichiometry” versus “Stoichiometry—Why Not?” Part III: Extension of GATES/GEB on Complex Dynamic Redox Systems Critical Reviews in Analytical Chemistry, 2015 DOI:10.1080/10408347.2014.953673

[14]	“Why Not Stoichiometry” Versus “Stoichiometry—Why Not?” Part II: GATES in Context with Redox Systems Critical Reviews in Analytical Chemistry, 2015 DOI:10.1080/10408347.2014.937853

[15]	Generalized Electron Balance for Dynamic Redox Systems in Mixed-Solvent Media Journal of Analytical Sciences, Methods and Instrumentation, 2014 DOI:10.4236/jasmi.2014.44014

[16]	Compact Formulation of Redox Systems According to GATES/GEB Principles Journal of Analytical Sciences, Methods and Instrumentation, 2014 DOI:10.4236/jasmi.2014.42006

[17]	Disproportionation Reactions of HIO and NaIO in Static and Dynamic Systems American Journal of Analytical Chemistry, 2014 DOI:10.4236/ajac.2014.515111

[18]	Formulation of Titration Curves for Some Redox Systems American Journal of Analytical Chemistry, 2014 DOI:10.4236/ajac.2014.513095

[19]	Linear Dependence of Balances for Non-Redox Electrolytic Systems American Journal of Analytical Chemistry, 2014 DOI:10.4236/ajac.2014.517134

[20]	Handbook of Solvents 2014 DOI:10.1016/B978-1-895198-64-5.50017-9

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