An Electrochemically Driven Actuator Based on a Nanostructured Carbon Material
- 22 June 1999
- journal article
- Published by American Chemical Society (ACS) in Analytical Chemistry
- Vol. 71 (15) , 3187-3191
- https://doi.org/10.1021/ac990124y
Abstract
A new type of electrochemically driven actuator is described. This actuator uses graphitic carbon as the electroactive material (as opposed to the polymeric films used in previous devices of this type), and it is the first example of an actuator based on a nanostructured material. The actuator consists of branched carbon nanotubules embedded within the pores of a microporous alumina template membrane. Electrochemical Li(+) intercalation causes this nanotubule-containing membrane to flex, and electrochemical deintercalation causes the membrane to relax to its original position. The characteristics of this new actuator are described here.Keywords
This publication has 9 references indexed in Scilit:
- Carbon nanotubule membranes for electrochemical energy storage and productionNature, 1998
- Chemical Vapor Deposition Based Synthesis of Carbon Nanotubes and Nanofibers Using a Template MethodChemistry of Materials, 1998
- Lithium Intercalation of Carbon‐Fiber MicroelectrodesJournal of the Electrochemical Society, 1996
- Controlled Folding of Micrometer-Size StructuresScience, 1995
- Bending of Polyelectrolyte Membrane–Platinum Composites by Electric Stimuli I. Response Characteristics to Various WaveformsPolymer Journal, 1995
- Nanomaterials: A Membrane-Based Synthetic ApproachScience, 1994
- Electrochemical applications of the bending beam method. 1. Mass transport and volume changes in polypyrrole during redoxThe Journal of Physical Chemistry, 1992
- Suppression of staging in lithium-intercalated carbon by disorder in the hostPhysical Review B, 1990
- Polymer films on electrodes. 9. Electron and mass transfer in Nafion films containing tris(2,2'-bipyridine)ruthenium(2+)Journal of the American Chemical Society, 1982