Georgios Angelis, Maria-Eleni Katsanou, Alexandros Giannopoulos-Dimitriou, Dr. Ioannis S. Vizirianakis, Dr. Georgios Pampalakis
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Generation of Chemobrionic Jellyfish-Like Structures That Mechanically Divide and Exhibit Biomimetic “Symbiosis”
Addition of CaCl2 into a highly alkaline phosphate buffer results in the generation of submerged transparent chemobrionic bubbles mimicking jellyfish that are stable and malleable. A compartmentalized O2-generating reaction triggered the growth of regular vertical chemical gardens from the bubble through a gas micro-rocket propelled mechanism. The bubbles can mechanically separate to yield two daughter bubbles in a process reminiscent of cytokinesis or natural jellyfish regeneration, and then re-grow through new injection of CaCl2. Finally, loading of E. coli bacteria genetically engineered to exert green fluorescence inside the bubbles was demonstrated in a biomimetic analogue of “symbiosis”.
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