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Literature DB >> 19043420

Surface-chemistry-driven actuation in nanoporous gold.

J Biener¹, A Wittstock, L A Zepeda-Ruiz, M M Biener, V Zielasek, D Kramer, R N Viswanath, J Weissmüller, M Bäumer, A V Hamza.

Abstract

Although actuation in biological systems is exclusively powered by chemical energy, this concept has not been realized in man-made actuator technologies, as these rely on generating heat or electricity first. Here, we demonstrate that surface-chemistry-driven actuation can be realized in high-surface-area materials such as nanoporous gold. For example, we achieve reversible strain amplitudes of the order of a few tenths of a per cent by alternating exposure of nanoporous Au to ozone and carbon monoxide. The effect can be explained by adsorbate-induced changes of the surface stress, and can be used to convert chemical energy directly into a mechanical response, thus opening the door to surface-chemistry-driven actuator and sensor technologies.

Entities: Chemical Species

Year: 2008 PMID： 19043420 DOI： 10.1038/nmat2335

Source DB: PubMed Journal: Nat Mater ISSN： 1476-1122 Impact factor: 43.841

10 in total

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Authors: Von Howard Ebron; Zhiwei Yang; Daniel J Seyer; Mikhail E Kozlov; Jiyoung Oh; Hui Xie; Joselito Razal; Lee J Hall; John P Ferraris; Alan G Macdiarmid; Ray H Baughman
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Authors: B K Min; A R Alemozafar; D Pinnaduwage; X Deng; C M Friend
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10. Variation of the surface stress-charge coefficient of platinum with electrolyte concentration.

Authors: R N Viswanath; D Kramer; J Weissmüller
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10 in total

30 in total

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Authors: Yih Horng Tan; Jason A Davis; Kohki Fujikawa; N Vijaya Ganesh; Alexei V Demchenko; Keith J Stine
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10. Mesoporous gold sponges: electric charge-assisted seed mediated synthesis and application as surface-enhanced Raman scattering substrates.

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