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The Warburg diffusion element is a common diffusion circuit element that can be used to model semi-infinite linear diffusion, that is, unrestricted diffusion to a large planar electrode. A Warburg impedance element can be difficult to recognize because it is nearly always associated with a charge-transfer resistance (see charge transfer complex) and a double layer capacitance (see double layer (interfacial)), but is common in many systems.

The Warburg diffusion element (Z_W) is a constant phase element (CPE), with a constant phase of 45° (phase independent of frequency) and with a magnitude inversely proportional to the square root of the frequency by:

Z_{W} = \frac{A_{W}}{\sqrt{ω}} + \frac{A_{W}}{j \sqrt{ω}}

| Z_{W} | = \sqrt{2} \frac{A_{W}}{\sqrt{ω}}

where A_W is the Warburg coefficient (or Warburg constant), j is the imaginary number and ω is the angular frequency. The presence of the Warburg element can be recognised if a linear relationship on the log of a Bode plot (log|Z| versus log(w)) exists with a slope of value –1/2.

References

http://www.consultrsr.com/resources/eis/diffusion.htm

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+The '''Warburg diffusion element''' is a common diffusion circuit element that can be used to model semi-infinite linear diffusion, that is, unrestricted diffusion to a large planar electrode. A Warburg impedance element can be difficult to recognize because it is nearly always associated with a charge-transfer resistance (see [[charge transfer complex]]) and a double layer capacitance (see [[double layer (interfacial)]]), but is common in many systems.
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+The Warburg diffusion element (Z<sub>W</sub>) is a [[constant phase element]] (CPE), with a constant phase of 45° (phase independent of frequency) and with a magnitude inversely proportional to the square root of the frequency by:
+:<math>{Z_W} = \frac{A_W}{\sqrt{\omega}}+\frac{A_W}{j\sqrt{\omega}}</math>
+:<math>{|Z_W|} = \sqrt{2}\frac{A_W}{\sqrt{\omega}}</math>
+where A<sub>W</sub> is the [[Warburg coefficient]] (or Warburg constant), j is the [[imaginary number]] and ω is the [[angular frequency]]. The presence of the Warburg element can be recognised if a linear relationship on the log of a [[Bode plot]] (log|Z| versus log(w)) exists with a slope of value –1/2.
+==References==
+* http://www.consultrsr.com/resources/eis/diffusion.htm
+[[Category:Electrochemistry]]

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Latest revision as of 02:07, 27 July 2013

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