Spatially, Temporally, and Quantitatively Controlled Delivery of Broad Range of Molecules into Selected Cells through Plasmonic Nanotubes

Gabriele C. Messina; Michele Dipalo; Rosanna La Rocca; Pierfrancesco Zilio; Valeria Caprettini; Remo Proietti Zaccaria; Andrea Toma; Francesco Tantussi; Luca Berdondini; Francesco De Angelis

Journal ArticleOPEN ACCESS

Spatially, Temporally, and Quantitatively Controlled Delivery of Broad Range of Molecules into Selected Cells through Plasmonic Nanotubes

Advanced Materials (2015) 27(44) 7145-7149

DOI: 10.1002/adma.201503252

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Abstract

A Universal plasmonic/microfluidic platform for spatial and temporal controlled intracellular delivery is described. The system can inject/transfect the desired amount of molecules with an efficacy close to 100%. Moreover, it is highly scalable from single cells to large ensembles without administering the molecules to an extracellular bath. The latter enables quantitative control over the amount of injected molecules.

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Messina, G. C., Dipalo, M., La Rocca, R., Zilio, P., Caprettini, V., Proietti Zaccaria, R., … De Angelis, F. (2015). Spatially, Temporally, and Quantitatively Controlled Delivery of Broad Range of Molecules into Selected Cells through Plasmonic Nanotubes. Advanced Materials, 27(44), 7145–7149. https://doi.org/10.1002/adma.201503252

Spatially, Temporally, and Quantitatively Controlled Delivery of Broad Range of Molecules into Selected Cells through Plasmonic Nanotubes

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