These files are the results of the statistics calculations of all the droplets in arrays with neighbours of different composition. Each folder represents an experiment where only that BZ component was changed and other BZ components are kept constant. They are numbered according to the columns of Figure 6. The x-axis represents the concentration of the component in M, and the calculated values of each repeat at that concentration. These repeats are arranged according to the time when the droplets entered the oil. The Mean of all the repeats at that concentration from the single droplet case in Figure 4 is then used. In the case of Figure 6, the values of each repeat and the mean are shown. No H2SO4 data is available as in Figure 4 as the arrays were less stable and not enough arrays could be observed without fusion for statistical data to be obtained.

Each of these values can be compared with the values obtained for Figure 4 for the data on isolated droplets. As the ferroin experiment used a higher malonic acid concentration (0.36 M) to extend the lifetime of the droplet to allow for sufficient time for wave pattern evolution, the ferroin data is not comparable to Figure 4. The data for the statistical data for isolated ferroin droplets with this higher malonic acid is included as "3_Ferroin_(More_MA)_(Single_droplet)". This data was obtained in the same experiment as the isolated droplet experiment for ferroin with the base malonic acid concentration of 0.18 M from Figure 4, so the experimental conditions are identical.

Column A in each case is the concentration of the component changed in M. The Lifetime is the time when the droplets stop oscillating in the exhausted state, measured in seconds from when the solutions are first mixed. The Wavecount represents the total number of waves found as peaks for the entire oscillation lifetime of the droplet until it enters the exhausted state. The Frequency is the median frequency of all the peaks detected, measured in Hz, where the frequency is calculated as the inverse of the time (in seconds) between each peak ((Time of next peak - time of current peak)^(-1)). The Amplitude is the median distance between the baseline (zero) of the flattened graph and the top of the peak, for all peaks, in arbitrary units. The Area is the median trough to trough integration of all peaks in arbitrary units.

