I have been studying the corrosion inhibition characteristics of a molecule for mild steel (600grit finish) in 1M HCl. Except for the blank solution, I observe a significant inductive loop in the Nyquist plot obtained from electrochemical impedance spectroscopy of system with various concentrations of inhibitor molecule. Is there an explanation and protocol that helps understand the physics of inhibition and fit the circuit including the inductive loop? I have been using ZSimpWin for this purpose and there are several circuits which may fit the data, however, the physical significance could not be found for many of them. I have gone through the book "Electrochemical Impedance Spectroscopy" by MarkEOrazem and BernardTribollet and several other publications.
Through literature, I found that reaction intermediates(what are they?why not for blank?), relaxation processes on adsorption of Cl- or H+(then blank must also have inductive loop), presence of strong oxide film(this is mild steel, freshly prepared) and dissolution of passivated surface(is 10mV perturbation of EIS sufficient to dissolve the passive layer?several minutes of OCP measurement would have already dissolved passive layer), are some reasons reported for inductive loop. I could not find a fitting answer or may be I could not connect it to my case. Can someone help me understand the inductive loop in the context of corrosion, adsorption and double layer? And physical significance of the circuit with inductive loop? Is there any textbook or standard to fit such data?