Fuel-Free Nanowire Motors
UC San Diego researchers have developed fuel-free nanomotors based on multi-segment nanowires and electric or magnetic control. Both nanomotor types are prepared using simple and scalable sequential template electrodeposition protocols. Specifically, electrically propelled nanomotors are created from Schottky barrier diode nanowires (e.g., PPy-Cd, CdSe-Au-CdSe) and are propelled/controlled by spatially uniform AC electric fields. Magnetically driven nanomotors are fabricated by sequential deposition of Au, Ag, and Ni segments in alumina micropores and subsequent dissolution steps allowing formation of nanowires with flexible joints essential for the controlled deformations, induced by external rotating magnetic fields, that enable locomotion. Proof of concept has been achieved in both cases. The relatively environment-independent, fuel-free operation of these nanomotors make them suitable for biomedical applications (e.g., targeted drug delivery) and other applications where the chemical milieu is unalterable (e.g., oil exploration).
Inventor: Wagener, Kenneth B. | Sworen, John C. | Zuluaga, Hector F. | Matloka, Piotr
Priority Number: US7420025B2
IPC Current: C08G007760 | C07F000718
US Class: 528035 | 525477 | 528015 | 528019 | 528033 | 556431
Assignee Applicant: University of Florida Research Foundation Inc.inesville
Title: Elastomeric polymers
Usefulness: Elastomeric polymers
Summary: In many different applications e.g. thermoset.
Novelty: Molecule useful in different applications e.g. thermoset comprises a polymer
Chemical/Material
Chemical/Material Application
9698708
Related Materials Tech ID/UC Case 21243/2011-081-0 Related Cases 2011-081-0
USA
