3D Printed Microtransporters: Compound Micromachines for Spatiotemporally Controlled Delivery of Therapeutic Agents

Tian Yun Huang; Mahmut Selman Sakar; Angelo Mao; Andrew J. Petruska; Famin Qiu; Xue Bo Chen; Stephen Kennedy; David Mooney; Bradley J. Nelson

Journal Article

3D Printed Microtransporters: Compound Micromachines for Spatiotemporally Controlled Delivery of Therapeutic Agents

Advanced Materials (2015) 27(42) 6644-6650

DOI: 10.1002/adma.201503095

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Abstract

Functional compound micromachines are fabricated by a design methodology using 3D direct laser writing and selective physical vapor deposition of magnetic materials. Microtransporters with a wirelessly controlled Archimedes screw pumping mechanism are engineered. Spatiotemporally controlled collection, transport, and delivery of micro particles, as well as magnetic nanohelices inside microfluidic channels are demonstrated.

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Huang, T. Y., Sakar, M. S., Mao, A., Petruska, A. J., Qiu, F., Chen, X. B., … Nelson, B. J. (2015). 3D Printed Microtransporters: Compound Micromachines for Spatiotemporally Controlled Delivery of Therapeutic Agents. Advanced Materials, 27(42), 6644–6650. https://doi.org/10.1002/adma.201503095

3D Printed Microtransporters: Compound Micromachines for Spatiotemporally Controlled Delivery of Therapeutic Agents

Abstract

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