Catalytic motors for transport of colloidal cargo

Shakuntala Sundararajan; Paul E. Lammert; Andrew W. Zudans; Vincent H. Crespi; Ayusman Sen

doi:10.1021/nl072275j

Catalytic motors for transport of colloidal cargo

Shakuntala Sundararajan, Paul E. Lammert, Andrew W. Zudans, Vincent H. Crespi, Ayusman Sen

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

341 Scopus citations

Abstract

Autonomous micro- and nanomotors should, in principle, deliver materials in a site-directed fashion, powering the assembly of dynamic, nonequilibrium superstructures. Here we demonstrate that catalytic Pt-Au nanomotors can transport a prototypical cargo: polystyrene microspheres. In addition, motors with Ni segments can overcome both Brownian orientational fluctuations and biased rotation of the rod-sphere doublet to enable persistent steerable uniaxial motion in an external magnetic field. Assuming a cargo-independent motive force, the speeds are inversely proportional to the Stokes resistance, which we compute using a completed -layer boundary integral equation. In addition, we demonstrate motors transporting cargo via chemotaxis toward a H ₂O ₂ fuel source.

Original language	English (US)
Pages (from-to)	1271-1276
Number of pages	6
Journal	Nano letters
Volume	8
Issue number	5
DOIs	https://doi.org/10.1021/nl072275j
State	Published - May 2008

All Science Journal Classification (ASJC) codes

Bioengineering
General Chemistry
General Materials Science
Condensed Matter Physics
Mechanical Engineering

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10.1021/nl072275j

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abstract = "Autonomous micro- and nanomotors should, in principle, deliver materials in a site-directed fashion, powering the assembly of dynamic, nonequilibrium superstructures. Here we demonstrate that catalytic Pt-Au nanomotors can transport a prototypical cargo: polystyrene microspheres. In addition, motors with Ni segments can overcome both Brownian orientational fluctuations and biased rotation of the rod-sphere doublet to enable persistent steerable uniaxial motion in an external magnetic field. Assuming a cargo-independent motive force, the speeds are inversely proportional to the Stokes resistance, which we compute using a completed -layer boundary integral equation. In addition, we demonstrate motors transporting cargo via chemotaxis toward a H 2O 2 fuel source.",

author = "Shakuntala Sundararajan and Lammert, {Paul E.} and Zudans, {Andrew W.} and Crespi, {Vincent H.} and Ayusman Sen",

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AU - Sundararajan, Shakuntala

AU - Lammert, Paul E.

AU - Zudans, Andrew W.

AU - Crespi, Vincent H.

AU - Sen, Ayusman

PY - 2008/5

Y1 - 2008/5

N2 - Autonomous micro- and nanomotors should, in principle, deliver materials in a site-directed fashion, powering the assembly of dynamic, nonequilibrium superstructures. Here we demonstrate that catalytic Pt-Au nanomotors can transport a prototypical cargo: polystyrene microspheres. In addition, motors with Ni segments can overcome both Brownian orientational fluctuations and biased rotation of the rod-sphere doublet to enable persistent steerable uniaxial motion in an external magnetic field. Assuming a cargo-independent motive force, the speeds are inversely proportional to the Stokes resistance, which we compute using a completed -layer boundary integral equation. In addition, we demonstrate motors transporting cargo via chemotaxis toward a H 2O 2 fuel source.

AB - Autonomous micro- and nanomotors should, in principle, deliver materials in a site-directed fashion, powering the assembly of dynamic, nonequilibrium superstructures. Here we demonstrate that catalytic Pt-Au nanomotors can transport a prototypical cargo: polystyrene microspheres. In addition, motors with Ni segments can overcome both Brownian orientational fluctuations and biased rotation of the rod-sphere doublet to enable persistent steerable uniaxial motion in an external magnetic field. Assuming a cargo-independent motive force, the speeds are inversely proportional to the Stokes resistance, which we compute using a completed -layer boundary integral equation. In addition, we demonstrate motors transporting cargo via chemotaxis toward a H 2O 2 fuel source.

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Catalytic motors for transport of colloidal cargo

Abstract

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