Evolution of the analytical signal in electrochemistry from electrocapillary curve to a digital electrochemical pattern of a multicomponent sample

Sokolkov, Sergey V.

doi:10.1002/elsa.202100212

Cited by 4 publications

(1 citation statement)

References 94 publications

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“…The proposed procedure for electrochemical identification is based on the theory of communication and information and is conceptually different from traditional electrochemical analysis. If we consider a sample as a "chemical information item" or "chemical message", then the task of the sensor is to digitize this information and encode it into some digital image of the sample (a fingerprint, a pattern, a QR code) [3]. This technology is not an analysis in its traditional sense, but rather resembles a method of taking finger prints -dactyloscopy.…”

Section: Introductionmentioning

confidence: 99%

Electrochemical Sensors for Digital Medicine and Biology Electrochemical Digitization of Analytical Information Biological Fluids Samples

Sokolkov¹

2022

Preprint

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Digital medicine based on the integration of all medical data of a particular patient, has become a reality today, thanks to information technology. Traditional medical examinations can be supple-mented by assessment results of the oxidative-anti-oxidative (OAO) status of the body [1]. Elec-trochemical sensors are able to not only determine the integral indicators of the OAO system of the body, but also to depict details of the processes occurring in the system. The main obstacle to the widespread use of electrochemical sensors in medical diagnostics is the extremely small amount of the received information in comparison with tens of thousands of known human dis-eases. The problem can be eliminated only by rethinking the purpose of electrochemical measure-ment within the framework of thermodynamics of information processes and information theory. In the information paradigm of electrochemical analysis of biological fluids, a sample is considered as an electrochemical message created by a sensor. The purpose of electrochemical measurement is to obtain information in a volume sufficient to identify the sample composition within the range of possible concentrations of its components. The fundamentals of the thermodynamics of infor-mation processes are considered and conclusions that are of practical importance for the devel-opment of electrochemical sensors and analyzers are derived. It is shown that potentiostatic con-trol of the sensor is physically impacted by the electromechanical instability of the electrical double layer, which is the main source of sensor signal noise. Estimates are of a minimum amount of an-alytical signal information required for identification of a sample of a known composition, such as a biological fluid, are provided. Examples of highly informative analytical signals for flowing and stationary samples are presented. Problems related to the visualization of such signals are noted.

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Section: Introductionmentioning

confidence: 99%

Electrochemical Sensors for Digital Medicine and Biology Electrochemical Digitization of Analytical Information Biological Fluids Samples

Sokolkov¹

2022

Preprint

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Electroanalytical instrumentation—how it all started: history of electrochemical instrumentation

Smutok

Katz²

2023

J Solid State Electrochem

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Method of Elements Identification in the Multicomponent Signal

Surovtsev,

Sieriebriakov

2023

Control syst. comput.

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To measure concentrations of toxic elements in analytical systems of ecological monitoring, a generative model of a multicomponent differential signal of stripping chronopotentiometry is used in the coordinates of potentials in time (е, dt/dе) in the form of a model of the capacitive background discharge of electrodes (base curve) and the sum of the models of the stripping components of chemical elements, given by asymmetric normal distribution functions. Identification of elements with slight overlapping of component signals is carried out based on the maximum value and range in which potentials change.

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Evolution of the analytical signal in electrochemistry from electrocapillary curve to a digital electrochemical pattern of a multicomponent sample

Cited by 4 publications

References 94 publications

Electrochemical Sensors for Digital Medicine and Biology Electrochemical Digitization of Analytical Information Biological Fluids Samples

Electrochemical Sensors for Digital Medicine and Biology Electrochemical Digitization of Analytical Information Biological Fluids Samples

Electroanalytical instrumentation—how it all started: history of electrochemical instrumentation

Method of Elements Identification in the Multicomponent Signal

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