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Biohybrid soft robotic devices present unique advantages for designing biologically active machines that can dynamically sense and interact with complex bioelectrical signals. Here, a controllable cell‐based machine is developed that harvests energy from arrays of beating cardiomyocytes to generate electricity for biomedical microscale robotic applications. The “Cell Generator” device is based on...
In article number 1606169, Peng Shi and co‐workers fabricate a bio‐hybrid “Cell Generator” by patterning cardiomyocytes on arrays of micro‐cantilevers made of piezoelectric materials. Pulsed contraction of the engineered cardiac constructs provides the source of mechanical energy for electricity generation, which is used to power small biomedical devices. This technology provides an innovative perspective...
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