Catalytic mesoporous janus nanomotors for active cargo delivery

Xing Ma; Kersten Hahn; Samuel Sanchez

doi:10.1021/jacs.5b02700

Catalytic mesoporous janus nanomotors for active cargo delivery

Xing Ma
, Kersten Hahn
, Samuel Sanchez^*

^*Corresponding author for this work

Max Planck Institute for Intelligent Systems
ICREA
Institute for Bioengineering of Catalonia

Research output: Contribution to journal › Article › peer-review

373 Scopus citations

Abstract

We report on the synergy between catalytic propulsion and mesoporous silica nanoparticles (MSNPs) for the design of Janus nanomotors as active cargo delivery systems with sizes <100 nm (40, 65, and 90 nm). The Janus asymmetry of the nanomotors is given by electron beam (e-beam) deposition of a very thin platinum (2 nm) layer on MSNPs. The chemically powered Janus nanomotors present active diffusion at low H₂O₂ fuel concentration (i.e., <3 wt %). Their apparent diffusion coefficient is enhanced up to 100% compared to their Brownian motion. Due to their mesoporous architecture and small dimensions, they can load cargo molecules in large quantity and serve as active nanocarriers for directed cargo delivery on a chip.

Original language	English
Pages (from-to)	4976-4979
Number of pages	4
Journal	Journal of the American Chemical Society
Volume	137
Issue number	15
DOIs	https://doi.org/10.1021/jacs.5b02700
State	Published - 22 Apr 2015
Externally published	Yes

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title = "Catalytic mesoporous janus nanomotors for active cargo delivery",

abstract = "We report on the synergy between catalytic propulsion and mesoporous silica nanoparticles (MSNPs) for the design of Janus nanomotors as active cargo delivery systems with sizes <100 nm (40, 65, and 90 nm). The Janus asymmetry of the nanomotors is given by electron beam (e-beam) deposition of a very thin platinum (2 nm) layer on MSNPs. The chemically powered Janus nanomotors present active diffusion at low H2O2 fuel concentration (i.e., <3 wt \%). Their apparent diffusion coefficient is enhanced up to 100\% compared to their Brownian motion. Due to their mesoporous architecture and small dimensions, they can load cargo molecules in large quantity and serve as active nanocarriers for directed cargo delivery on a chip.",

author = "Xing Ma and Kersten Hahn and Samuel Sanchez",

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AU - Sanchez, Samuel

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N2 - We report on the synergy between catalytic propulsion and mesoporous silica nanoparticles (MSNPs) for the design of Janus nanomotors as active cargo delivery systems with sizes <100 nm (40, 65, and 90 nm). The Janus asymmetry of the nanomotors is given by electron beam (e-beam) deposition of a very thin platinum (2 nm) layer on MSNPs. The chemically powered Janus nanomotors present active diffusion at low H2O2 fuel concentration (i.e., <3 wt %). Their apparent diffusion coefficient is enhanced up to 100% compared to their Brownian motion. Due to their mesoporous architecture and small dimensions, they can load cargo molecules in large quantity and serve as active nanocarriers for directed cargo delivery on a chip.

AB - We report on the synergy between catalytic propulsion and mesoporous silica nanoparticles (MSNPs) for the design of Janus nanomotors as active cargo delivery systems with sizes <100 nm (40, 65, and 90 nm). The Janus asymmetry of the nanomotors is given by electron beam (e-beam) deposition of a very thin platinum (2 nm) layer on MSNPs. The chemically powered Janus nanomotors present active diffusion at low H2O2 fuel concentration (i.e., <3 wt %). Their apparent diffusion coefficient is enhanced up to 100% compared to their Brownian motion. Due to their mesoporous architecture and small dimensions, they can load cargo molecules in large quantity and serve as active nanocarriers for directed cargo delivery on a chip.

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Catalytic mesoporous janus nanomotors for active cargo delivery

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