New ultra-sensitive measurement method in ampere and voltammetry

Biosensors & Bioelectronics

ISSN: 2155-6210

Open Access

New ultra-sensitive measurement method in ampere and voltammetry

5th Euro Biosensors & Bioelectronics Conference

June 30-July 02, 2016 Valencia, Spain

Vladimir Moshkin and Larisa Khustenko

Sib-STRIM LLC, Tomsk, Russia

Scientific Tracks Abstracts: J Biosens Bioelectron

Abstract :

A new method of forming an electrochemical signal can significantly increase measurement sensitivity at low hardware cost. A unique feature of the method is the use of capacitive current as an information component, while in the classical pulsed methods capacitive current is interference. The method is based on the inclusion of high-speed current switch circuit which provides a predetermined period and duration of current interrupt. Main properties thus obtained signal is founded. It is shown, that for a large ratio of time the switch was open to a time closed state theoretical gain of sensitivity is equal to this ratio. Practically achievable values of opening and closing times allow to reach the increasing of sensitivity up to several hundreds. The resulting pulse signal (switching current) has good noise immunity, it can be used even in unsteady conditions such as vibration of the working electrode. The conditions of linearity of the switching current vs. the concentration of the element are determined. It is shown that the proposed method organically allows along with the current measurement to measure both resistance and capacitance of the double layer of electrochemical cell. The authors use the proposed method for several years to determine the number of elements: Fe(III), Cu(II), Cr(III), Cr(VI), Ir(IV), etc., both in chronoamperometry and in voltammetry modes. Practical achieved sensitivity for Fe(III) is not above 1 nM/dm3 (50 ng/dm3) using the general-purpose base of components. It is noted that the use of this approach for cells with ultramicroelectrodes is a perspective.

Biography :

Vladimir Moshkin graduated from the Tomsk Polytechnic University (1977) and Post-graduate studies (1990) with a degree in Electrical Measurements. He participated in the development of popular Russian electrochemical analyzers TA-2 and TA-7 (“Technoanalyt” LLC, Tomsk, Russia). Now, he is the Director of "Sib-STRIM" LLC. He has several Russian publications on electrochemical measurements of signals and is the author of several inventions.


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