ZnO characterisation under constant current

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ZnO, a semiconductor with a resistivity around 10^5 Ωcm, exhibits unexpected voltage behavior during constant current measurements. Initially, a transient increase in voltage is anticipated, followed by a stable state; however, a decrease in voltage is observed instead. This decline includes a sign change, raising questions about the underlying causes. The discussion suggests that electrolysis might be influencing the results, though the thin film sample and measurement setup with separate probes for current and voltage are noted as potential factors. Understanding these dynamics is crucial for accurate ZnO characterization under constant current conditions.
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As ZnO is a semiconductor with a typical resistivity of ρ ~ 10^5 Ωcm, I tried to find the settling time during measurements.

If I impose a low-level constant current (as a source), I expect a transient phenomenon (of few tens of seconds) and then a constant state while measuring Voltage to time.

Yet, what I see is a decrease in the measured voltage after its expected rise. Could somebody explain why a fall in Voltage happens and the change of its sign (from positive to negative and vice versa later on, like in the V-t plot)?
 
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I'm guessing that you're separating the oxygen out through electrolysis.
 
My sample is a thin film. I do not thing it has to do with electrolysis. I used 2 probes for the current and 2 other for voltage measurement. All of them on the periphery of the sample.
 
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