Spiral diffusion of self-assembled dimers of Janus spheres

John G. Gibbs; Amir Nourhani; Joel N. Johnson; Paul E. Lammert

doi:10.1557/adv.2017.383

Spiral diffusion of self-assembled dimers of Janus spheres

John G. Gibbs, Amir Nourhani, Joel N. Johnson, Paul E. Lammert

Physics

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

8 Scopus citations

Abstract

Janus spheres, micron-sized silica spheres half-coated with platinum, move rectilinearly away from the platinum side in aqueous hydrogen peroxide. Upon self-assembling, these colloidal particles can form dimers with different conformations that exhibit both rectilinear and rotational modes of motion depending upon the relative orientation of each Janus sphere. At the micron length-scale, stochastic rotational Brownian dynamics is of the order of deterministic dynamics, and their coupling results in effective diffusion, in addition to passive translational diffusion. For dimers with rotary motion, the dynamic coupling leads to spiral trajectories for an ensemble average of the displacement vector.

Original language	English (US)
Pages (from-to)	3471-3478
Number of pages	8
Journal	MRS Advances
Volume	2
Issue number	57
DOIs	https://doi.org/10.1557/adv.2017.383
State	Published - 2017

All Science Journal Classification (ASJC) codes

Mechanical Engineering
Mechanics of Materials
General Materials Science
Condensed Matter Physics

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10.1557/adv.2017.383

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title = "Spiral diffusion of self-assembled dimers of Janus spheres",

abstract = "Janus spheres, micron-sized silica spheres half-coated with platinum, move rectilinearly away from the platinum side in aqueous hydrogen peroxide. Upon self-assembling, these colloidal particles can form dimers with different conformations that exhibit both rectilinear and rotational modes of motion depending upon the relative orientation of each Janus sphere. At the micron length-scale, stochastic rotational Brownian dynamics is of the order of deterministic dynamics, and their coupling results in effective diffusion, in addition to passive translational diffusion. For dimers with rotary motion, the dynamic coupling leads to spiral trajectories for an ensemble average of the displacement vector.",

author = "Gibbs, {John G.} and Amir Nourhani and Johnson, {Joel N.} and Lammert, {Paul E.}",

note = "Funding Information: This project was funded by the State of Arizona Technology and Research Initiative Fund (TRIF), administered by the Arizona Board of Regents (ABOR). AN and PEL acknowledge funding by the National Science Foundation under Grant No. DMR-1420620 through the Penn State Center for Nanoscale Science.",

year = "2017",

doi = "10.1557/adv.2017.383",

language = "English (US)",

volume = "2",

pages = "3471--3478",

journal = "MRS Advances",

issn = "2059-8521",

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T1 - Spiral diffusion of self-assembled dimers of Janus spheres

AU - Gibbs, John G.

AU - Nourhani, Amir

AU - Johnson, Joel N.

AU - Lammert, Paul E.

N1 - Funding Information: This project was funded by the State of Arizona Technology and Research Initiative Fund (TRIF), administered by the Arizona Board of Regents (ABOR). AN and PEL acknowledge funding by the National Science Foundation under Grant No. DMR-1420620 through the Penn State Center for Nanoscale Science.

PY - 2017

Y1 - 2017

N2 - Janus spheres, micron-sized silica spheres half-coated with platinum, move rectilinearly away from the platinum side in aqueous hydrogen peroxide. Upon self-assembling, these colloidal particles can form dimers with different conformations that exhibit both rectilinear and rotational modes of motion depending upon the relative orientation of each Janus sphere. At the micron length-scale, stochastic rotational Brownian dynamics is of the order of deterministic dynamics, and their coupling results in effective diffusion, in addition to passive translational diffusion. For dimers with rotary motion, the dynamic coupling leads to spiral trajectories for an ensemble average of the displacement vector.

AB - Janus spheres, micron-sized silica spheres half-coated with platinum, move rectilinearly away from the platinum side in aqueous hydrogen peroxide. Upon self-assembling, these colloidal particles can form dimers with different conformations that exhibit both rectilinear and rotational modes of motion depending upon the relative orientation of each Janus sphere. At the micron length-scale, stochastic rotational Brownian dynamics is of the order of deterministic dynamics, and their coupling results in effective diffusion, in addition to passive translational diffusion. For dimers with rotary motion, the dynamic coupling leads to spiral trajectories for an ensemble average of the displacement vector.

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Spiral diffusion of self-assembled dimers of Janus spheres

Abstract

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