Impedance Spectrum Measurement System
Impedance spectrum measurement system, Labview program was developed to communicate with a HP 4276 LCZ Meter (from Prof. Lawrence Hmurcik) through a GPIB cable (Figure 1) and an impedance spectrum can be obtained through this system. In the study of a fuel cell, the overvoltages (voltage losses) can be estimated through the analysis of the impedance spectra as shown in Figure 2
Figure 1. Impedance spectrum
Fuel Cell Testing System
Fuel Cell testing system, a fuel cell testing system was set up with a Labview program, a miniLab 1008 DAQ board, and a PC (see Figure 3). In addition, a heating tape, a transformer, a thermocouple, and a relay are used to control the temperature of a fuel cell. Therefore, the voltage-current and power-current curves (see Figures 4 and 5) can be measured.
Potentiostat system, a Pine WaveNow Potentiostat is used to acquiring qualitative information about electrochemical reactions (see Figure 6). Cyclic voltammetry is the main method through this system to study the thermodynamics of redox processes and the kinetics of heterogeneous electron-transfer reactions.
Surface Characterization System
Surface characterization system, a Secondary Ion Mass Spectrometry (SIMS) (see Figure 7) was used to analyze the composition of solid surfaces, including the surface of the fuel cell electrode. SIMS is the most sensitive surface analysis technique, being able to detect elements present in the parts per billion range.
In addition, there are one Nikon stereomicroscope (see Figure 8) and one mass selective detector (see Figure 9).