Reciprocating Power Generation in a Chemically Driven Synthetic Muscle
- 10 December 2005
- journal article
- research article
- Published by American Chemical Society (ACS) in Nano Letters
- Vol. 6 (1), 73-77
- https://doi.org/10.1021/nl0520617
Abstract
A scalable synthetic muscle has been constructed that transducts nanoscale molecular shape changes into macroscopic motion. The working material, which deforms affinely in response to a pH stimulus, is a self-assembled block copolymer comprising nanoscopic hydrophobic domains in a weak polyacid matrix. A device has been assembled where the muscle does work on a cantilever and the force generated has been measured. When coupled to a chemical oscillator this provides a free running chemical motor that generates a peak power of 20 mW kg-1 by the serial addition of 10 nm shape changes that scales over 5 orders of magnitude. It is the nanostructured nature of the gel that gives rise to the affine deformation and results in a robust working material for the construction of scalable muscle devices.Keywords
This publication has 16 references indexed in Scilit:
- Playing Nature's Game with Artificial MusclesScience, 2005
- Responsive brushes and gels as components of soft nanotechnologyFaraday Discussions, 2004
- Recent experiments on a small-angle/wide-angle X-ray scattering beam line at the ESRFJournal of Applied Crystallography, 2003
- Self-Beating Motion of Gels and Modulation of Oscillation Rhythm Synchronized with Organic AcidMacromolecules, 2003
- Traveling Chemical Waves for Measuring Solute Diffusivity in Thermosensitive Poly(N-isopropylacrylamide) GelThe Journal of Physical Chemistry A, 2001
- The Way Things Move: Looking Under the Hood of Molecular Motor ProteinsScience, 2000
- Motility Powered by Supramolecular Springs and RatchetsScience, 2000
- Correlation of lattice deformation with macroscopic strain for the hexagonal-packed cylinder phase of a triblock copolymerPolymer, 2000
- Origins of Complex Self-Assembly in Block CopolymersMacromolecules, 1996
- Self-Oscillating GelJournal of the American Chemical Society, 1996