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WaveNow User: Dummy Cell

by | Jan 4, 2016 | Uncategorized

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This article is part of the Pine WaveNow USB Potentiostat User's Guide[/call_to_action]


[toggle title = “Dummy Cell Description”]

A dummy cell is a simple circuit consisting of a few resistors and capacitors which can be used to test the behavior of a potentiostat. The WaveNow (and WaveNano) potentiostats are shipped with a circuit board which contains several dummy cell circuits, each of which can easily be connected to the potentiostat via the cell port (see photo below).

ab01dum1_002.jpg ab01dum1_001.jpg

The circuit board has four positions (“CELL A”, “CELL B”, “CELL C”, and “CELL D”).

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The first position, “CELL A”, may be used for field verification of the instrument's calibration (along with the proper software and calibration instrumentation).

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The circuit board included with the WaveNano potentiostat has a special position, “CELL E”, in place of “CELL B”. This special position offers a dummy cell with a one gigaohm resistor which is ideal for testing very low current behavior.
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Each of the dummy cell positions has the same basic circuit (see schematic diagram below), but they differ with respect to the exact resistor and capacitor values in the circuit. A table on the back side of the dummy cell lists the resistor and capacitor values, and this information is also available in the tabs below.

narrow_schematic.jpg
CDL = 100 µF RCT = 10 ohm RU = 10 ohm RUW = 1 ohm RREF = 1000 ohm RCTR = 10 ohm
CDL = 1 µF RCT = 1000 ohm RU = 100 ohm RUW = 10 ohm RREF = 1×104 ohm RCTR = 1000 ohm
CDL = 10 nF RCT = 1×106 ohm RU = 1×104 ohm RUW = 1000 ohm RREF = 1×105 ohm RCTR = 1×105 ohm
CDL = 100 pF RCT = 1×109 ohm RU = 1×106 ohm RUW = 1×105 ohm RREF = 1×106 ohm RCTR = 1×106 ohm
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[toggle title = “Typical Circuit Configurations”]

By using various settings of the five dip switches, it is possible to test the potentiostat against a variety of different loads, each of which might mimic the load presented by a “real” electrochemical cell. In each configuration, the reference electrode is separated from the reference sense point (TP5, TP7, or TP9) by a resistor (Rref), and the counter electrode is also separated from this point by a resistor (Rctr, or solution resistance). Similarly, the working electrode is separated from the working sense point (TP6, TP8, or TP10) by a small resistor (Ruw). Note that Ruw value may be reduced to 0 by closing the switch DIP4, and Rref and Rctr may be reduced by joining the reference and counter electrodes together by closing the DIP1 switch.

There are three configurations that are most useful for testing the behavior of a potentiostat (see table below). Note that the original factory settings for the dip switches correspond to the Randle's Circuit configuration.

Standard Dip Switch Positions

Dummy Cell Dip Configurations

Pure Resistive Load
DIP1 – open
DIP2 – closed
DIP3 – closed
DIP4 – open
DIP5 – open
Pure Capacitive Load
DIP1 – open
DIP2 – closed
DIP3 – open
DIP4 – open
DIP5 – closed
Randle’s Circuit
DIP1 – open
DIP2 – open
DIP3 – closed
DIP4 – open
DIP5 – closed
[call_to_action] icon_info.jpgNOTE:

If you are unfamiliar with dip switches, it can be difficult to discern whether a switch is closed or open. The photograph above shows examples of both a closed switch and an open switch.[/call_to_action]

The most basic configuration is Pure Resistive Load, where a resistor is used to mimick the charge transfer resistance (Rct) at the electrode/electrolyte interface. A cyclic voltammogram obtained using this dummy cell configuration should show straight line with the slope inversely proportional to the Rct resistance (see below).

pure_resistive_loading.jpg

A Pure Capacitive Load is used to simulate an electrode double layer that is ideally polarizable. The charging current, iDL, observed when using this capacitive load is given by the following equation,

iDL = CDL v

where the capacitance, CDL, mimicks the double-layer capacitance, and the working electrode potential is being swept at a constant rate, v. Very small charging currents can be produced using lower sweep rates. This is useful when evaluating a potentiostat's ability to measure small currents. An example “voltammogram” obtained using the Pure Capacitive Load configuration is shown below.

pure_capacitive_loading.jpg

Note how the “voltammogram” appears as a rectangular box, and the height of the box (along the vertical axis) is twice the value of the charging current calculated according to the above equation. The oscillations at points where the sweeping potential suddenly switches direction are quite noticable when using a pure capacitive load. Most “real” electrochemical cells are less prone to exhibiting such oscillations.

A Randle's circuit places the the double-layer capacitance (Cdl) in parallel with the charge transfer resistance (Rct) and another impedance element known as a Warburg element. The Warburg element cannot be simulated using simple resistors and capacitors because it represents the “real” diffusion processes which occur in an actual solution in an electrochemical cell.

The Randle's Circuit configuration for the dummy cell omits the Warburg element, but includes the parallel double-layer capacitance and charge transfer resistance. The response from this pseudo-Randle's cell is shown below.

randles_cell_loading.jpg

[/toggle] [toggle title = “Ordering Information”]

Part numbers are provided below.

Part Number
AB01DUM1
AB01DUM2
Description
Dummy cell for the WaveNow potentiostat
Dummy cell for the WaveNano potentiostat
[call_to_action color = “violet” button_color=”violet” button_text=”Dummy Cell Purchase” button_url = “https://devnewtheme.pineresearch.com/shop/products/potentiostats/wavenow/accessories-wavenow/dummy-cell-wavenow-wavenano/”]The Dummy Cell can be viewed and purchased from Pine Research Instrumentation at the provided link[/call_to_action]

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