VIDEO: 3D printing in midair via lasers is now possible - Applications in biomedical devices, sensors, etc.

05/18/2016 - 06:51

Kat J. McAlpine


“Flat” and “rigid” are terms typically used to describe electronic devices. But the increasing demand for flexible, wearable electronics, sensors, antennas, and biomedical devices has led a research team to innovate an eye-popping way of printing complex metallic architectures as though seemingly suspended in midair.

The laser-assisted direct ink writing method prints microscopic metallic, free-standing 3-D structures in one step, without auxiliary support material.

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Ref: Laser-assisted direct ink writing of planar and 3D metal architectures. Proceedings of the National Academy of Sciences (16 May 2016) | DOI: 10.1073/pnas.1525131113

ABSTRACT

The ability to pattern planar and freestanding 3D metallic architectures at the microscale would enable myriad applications, including flexible electronics, displays, sensors, and electrically small antennas. A 3D printing method is introduced that combines direct ink writing with a focused laser that locally anneals printed metallic features “on-the-fly.” To optimize the nozzle-to-laser separation distance, the heat transfer along the printed silver wire is modeled as a function of printing speed, laser intensity, and pulse duration. Laser-assisted direct ink writing is used to pattern highly conductive, ductile metallic interconnects, springs, and freestanding spiral architectures on flexible and rigid substrates.