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A new 3D‐printing method integrates genetically programmed bacterial cells into large‐scale, high‐resolution living materials and devices, as demonstrated by Xuanhe Zhao and co‐workers in article number 1704821. In the 3D‐printed active structure, genetically engineered cells and some signaling chemicals act as responsive components and can communicate and process signals in a programmable manner...
3D printing has been intensively explored to fabricate customized structures of responsive materials including hydrogels, liquid‐crystal elastomers, shape‐memory polymers, and aqueous droplets. Herein, a new method and material system capable of 3D‐printing hydrogel inks with programed bacterial cells as responsive components into large‐scale (3 cm), high‐resolution (30 μm) living materials, where...
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