Projects per year
Abstract
Devising an approach to deterministically position organisms can impact various fields such as bioimaging, cybernetics, cryopreservation, and organism-integrated devices. This requires continuously assessing the locations of randomly distributed organisms to collect and transfer them to target spaces without harm. Here, an aspiration-assisted adaptive printing system is developed that tracks, harvests, and relocates living and moving organisms on target spaces via a pick-and-place mechanism that continuously adapts to updated visual and spatial information about the organisms and target spaces. These adaptive printing strategies successfully positioned a single static organism, multiple organisms in droplets, and a single moving organism on target spaces. Their capabilities are exemplified by printing vitrification-ready organisms in cryoprotectant droplets, sorting live organisms from dead ones, positioning organisms on curved surfaces, organizing organism-powered displays, and integrating organisms with materials and devices in customizable shapes. These printing strategies can ultimately lead to autonomous biomanufacturing methods to evaluate and assemble organisms for a variety of single and multi-organism-based applications.
Original language | English (US) |
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Article number | 2404617 |
Journal | Advanced Science |
Volume | 11 |
Issue number | 32 |
DOIs | |
State | Published - Aug 27 2024 |
Bibliographical note
Publisher Copyright:© 2024 The Author(s). Advanced Science published by Wiley-VCH GmbH.
Keywords
- 3D printing
- bionic organisms
- cryopreservation
- pick-and-place
PubMed: MeSH publication types
- Journal Article
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- 1 Active
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ATP-Bio: NSF Engineering Research Center for Advanced Technologies for the Preservation of Biological Systems (ATP-Bio)
Bischof, J. C. (PI), Toner, M. (CoPI), Roehrig, G. H. (CoPI), Aguilar, G. (CoPI), Healy, K. E. (CoPI) & Uygun, K. (Key Personnel)
9/1/20 → 8/31/25
Project: Research project