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The assembly of microscale materials offers unique opportunities for tissue engineering, material science, microelectronics, and microphotonics. U. Demirci and co‐workers show on page 5936 that liquid surfaces established by standing waves can be used as dynamically reconfigurable templates for assembling diverse symmetric and periodic structures from microscale hydrogels, cells, and cell spheroids,...
A liquid surface established by standing waves is used as a dynamically reconfigurable template to assemble microscale materials into ordered, symmetric structures in a scalable and parallel manner. The broad applicability of this technology is illustrated by assembling diverse materials from soft matter, rigid bodies, individual cells, cell spheroids and cell‐seeded microcarrier beads.
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