In full disclosure I'm fairly new to electrochemistry so I might just be doing something wrong, but that's not to say I don't know how to replicate published experiments or follow a protocol. With that said, I've recently undertaken some work experimenting with Potassium Hexacyanoferrate (III) with a focus on Cyclic voltammetry redox peaks- Much of what I've seen experimentally has made sense and reflects whats been well defined in copious amounts of literature (ie. Increasing/decreasing concentration increases/decreases respectively the peak current observed). What hasn't made sense and the reason for my lack of sleep and inevitable inquiry here is that I occasionally get a gradual increase in signal over time... But why!?
I do CV scans in the potential range of -0.1V to 0.5V and at a scan rate of 50mV/s. The working electrode is a gold electrode, the reference is calomel and the counter is platinum while the solution this experiment is routinely done in is typically a 10uM potassium hexacyanoferrate (III) in pH 7.4 PBS solution.
The oxidation peak can increase by as much as 20% within 2 hours for seemingly no reason (as can the reduction peak). Evaporation is not an issue.
I eagerly look forward to any thoughts in regards to this!
Thanks y'all,
-Vlad