Steering artificial nanoscale swimmers using teardrop shaped posts

Megan Davies Wykes; Xiao Zhong; Takiji Adachi; Yanpeng Liu; Jiajun Tong; Leif Ristroph; Michael Ward; Jun Zhang; Michael Shelley

Steering artificial nanoscale swimmers using teardrop shaped posts

ORAL

Abstract

Microorganisms use various strategies to bias their swimming to achieve long-time directed motion against a flow, against gravity, or up a chemical gradient. To make use of artificial swimmers for transporting cargo, to separate swimming particles from diffusing ones, or to concentrate a solution of motile particles, ways of steering such swimmers are required. We make use of the attraction of artificial bi-metallic swimmers to vertical walls to direct their long-time motion. We will describe how these swimmers are attracted to the surface of teardrop-shaped posts and leave preferentially at regions of higher curvature. We use this understanding to interpret their behavior when interacting with arrays of teardrop-shaped posts.

^*This work was supported partially by the Materials Research Science and Engineering Center (MRSEC) program of the National Science Foundation under Award Number DMR-1420073.

Nov. 20, 2016, 5:50 PM – Nov. 20, 2016, 6:03 PM

Authors

Megan Davies Wykes
- New York University
Xiao Zhong
- New York University
Takiji Adachi
- New York University
Yanpeng Liu
- Beijing University of Aeronautics and Astronautics
Jiajun Tong
- New York University
Leif Ristroph
- New York University
Michael Ward
- New York University
Jun Zhang
- New York University/NYU-Shanghai
- New York University and NYU Shanghai
Michael Shelley
- Courant Institute of Mathematical Sciences
- Simons Foundation, Courant Institute (NYU)
- New York University
- Courant Institute of Mathematical Sciences, New York University