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Mechanical strain formed at the interfaces of thin films has been widely applied to self‐assemble 3D microarchitectures. Among them, rolled‐up microtubes possess a unique 3D geometry beneficial for working as photonic, electromagnetic, energy storage, and sensing devices. However, the yield and quality of microtubular architectures are often limited by the wet‐release of lithographically patterned...
In article number 2003252, Libo Ma, Oliver G. Schmidt, and co‐workers develop a dry‐release approach for the rolling up of strained nanomembranes, for the fabrication of electronic and optical devices. This approach results in in high yield, reproducibility, and uniformity, and represents a major step toward wafer‐scale integration of microdevices.
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