Microscale Metal Additive Manufacturing by Solid‐State Impact Bonding of Shaped Thin Films
Author(s)
Reiser, Alain; Schuh, Christopher A
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The deposition of device-grade inorganic materials is one key challenge towardthe implementation of additive manufacturing (AM) in microfabrication, andto that end, a broad range of physico-chemical principles has been exploredfor 3D fabrication with micro- and nanoscale resolution. Yet, for metals,a process that achieves material quality rivalling that of established thin-filmdeposition methods, and at the same time, has the potential to combinehigh throughput production with a broad palette of processable materials, isstill lacking. Here, the kinetic, solid-state bonding of metal thin films for theadditive assembly of high-purity, high-density metals with micrometer-scaleprecision is introduced. Indirect laser ablation accelerates micrometer-thickgold films to hundreds of meters per second without their heating or ablation.Their subsequent impact on the substrate above a critical velocity forms apermanent, metallic bond in the solid state. Stacked layers are of high density(>99%). By defining thin-film layers with established lithographic methodsprior to launch, a variable feature size (2–50 µm), arbitrary shape of bondedlayers, and parallel transfer of up to 36 independent film units in a single shot,is demonstrated. Thus, the solid-state kinetic bonding principle as a viableand potentially versatile route for micro-scale AM of metals is established.
Date issued
2025-07-14Department
Massachusetts Institute of Technology. Department of Materials Science and EngineeringJournal
Small
Publisher
Wiley
Citation
A. Reiser and C. A. Schuh, “ Microscale Metal Additive Manufacturing by Solid-State Impact Bonding of Shaped Thin Films.” Small 21, no. 36 (2025): 21, 2503014.
Version: Final published version