Nonlinear frequency response analysis: a recent review and perspectives

“…Figure 4a also highlights the limitation of impedance studies due to the need for linearity-only small ranges of the dynamic system behavior can be studied with EIS measurements and a drastic loss of information about the energy material investigated can be the consequence. [80] The dynamic behavior of electrochemical systems is governed by overpotentials which alter the cell voltage from the equilibrium voltage (open-circuit voltage, or, for single electrodes, open-circuit potential). In general, different contributions to the overall (summary) overpotential η can be differentiated, which all show a specific dependency on the electric current.…”

“…[83,84] A detailed overview of different use cases of nonlinear (NL) studies is given elsewhere. [80,84,85] The studies listed here include investigations on corrosion processes, chemical sensing, batteries, fuel cells, and the respective energy materials showing the wide applicability of these methods. In addition to a very diverse range of systems, a wide variety of phenomena can be investigated with nonlinear techniques.…”

“…Furthermore, it could be shown that different properties of energy materials (e.g., diffusion rates or reaction processes) have a traceable influence on the results of NL methods. [80,[89][90][91] A wide range of nonlinear investigations has been carried out in the field of fuel cells. Kadyk et al could link the results of nonlinear measurements, conducted at proton-exchange membrane fuel cells, to different system failures.…”

“…For both experimental designs, it is crucial to maintain the system stable over time, as timevariance as well can lead to nonlinear behavior, falsifying the measurement results. [80,98] Especially for the approach shown in Figure 4c, it is not always trivial to satisfy this requirement. For a battery, for instance, the applied DC signal will induce charging or discharging over time.…”

“…As a consequence, individual filtering or windowing cannot be performed on the experimental output, and also a loss of information cannot be ruled out. [80] When using DC signals in combination with low AC amplitudes to obtain nonlinearity, individual measurement setups need to be designed by the user including hardware and software. For this approach, to the best of the authors' knowledge, no commercial complete solution is available at the market.…”

Nonlinear Electrochemical Analysis: Worth the Effort to Reveal New Insights into Energy Materials

“…Figure 4a also highlights the limitation of impedance studies due to the need for linearity-only small ranges of the dynamic system behavior can be studied with EIS measurements and a drastic loss of information about the energy material investigated can be the consequence. [80] The dynamic behavior of electrochemical systems is governed by overpotentials which alter the cell voltage from the equilibrium voltage (open-circuit voltage, or, for single electrodes, open-circuit potential). In general, different contributions to the overall (summary) overpotential η can be differentiated, which all show a specific dependency on the electric current.…”

“…[83,84] A detailed overview of different use cases of nonlinear (NL) studies is given elsewhere. [80,84,85] The studies listed here include investigations on corrosion processes, chemical sensing, batteries, fuel cells, and the respective energy materials showing the wide applicability of these methods. In addition to a very diverse range of systems, a wide variety of phenomena can be investigated with nonlinear techniques.…”

“…Furthermore, it could be shown that different properties of energy materials (e.g., diffusion rates or reaction processes) have a traceable influence on the results of NL methods. [80,[89][90][91] A wide range of nonlinear investigations has been carried out in the field of fuel cells. Kadyk et al could link the results of nonlinear measurements, conducted at proton-exchange membrane fuel cells, to different system failures.…”

“…For both experimental designs, it is crucial to maintain the system stable over time, as timevariance as well can lead to nonlinear behavior, falsifying the measurement results. [80,98] Especially for the approach shown in Figure 4c, it is not always trivial to satisfy this requirement. For a battery, for instance, the applied DC signal will induce charging or discharging over time.…”

“…As a consequence, individual filtering or windowing cannot be performed on the experimental output, and also a loss of information cannot be ruled out. [80] When using DC signals in combination with low AC amplitudes to obtain nonlinearity, individual measurement setups need to be designed by the user including hardware and software. For this approach, to the best of the authors' knowledge, no commercial complete solution is available at the market.…”

Nonlinear Electrochemical Analysis: Worth the Effort to Reveal New Insights into Energy Materials

Multiscale Investigation of Sodium‐Ion Battery Anodes: Analytical Techniques and Applications

Product Distribution of Steady–State and Pulsed Electrochemical Regeneration of 1,4‐NADH and Integration with Enzymatic Reaction