Electroactive composite biofilms integrating Kombucha, Chlorella and synthetic proteinoid Proto–Brains

Abstract: In this study, we present electroactive biofilms made from a combination of Kombucha zoogleal mats and thermal proteinoids. These biofilms have potential applications in unconventional computing and robotic skin. Proteinoids are synthesized by thermally polymerizing amino acids, resulting in the formation of synthetic protocells that display electrical signalling similar to neurons. By incorporating proteinoids into Kombucha zoogleal cellulose mats, hydrogel biofilms can be created that have the ability to eff… Show more

“…These structures also assemble into larger aggregates at both microscopic and macroscopic scales [4][5][6][7][8]. Proteinoids, found within these structures, display an intricate emergent chemistry such as imitating ion channels, regulating voltage, and responding to stimuli in a manner similar to living cells [9][10][11][12]. Proteinoids are bioinspired materials that can mimic the biophysical and self-organisational characteristics observed in living organisms [1,[13][14][15][16][17].…”

On Effect of Chloroform on Electrical Activity of Proteinoids

“…These structures also assemble into larger aggregates at both microscopic and macroscopic scales [4][5][6][7][8]. Proteinoids, found within these structures, display an intricate emergent chemistry such as imitating ion channels, regulating voltage, and responding to stimuli in a manner similar to living cells [9][10][11][12]. Proteinoids are bioinspired materials that can mimic the biophysical and self-organisational characteristics observed in living organisms [1,[13][14][15][16][17].…”

On Effect of Chloroform on Electrical Activity of Proteinoids