Robust metallic actuators based on nanoporous gold rapidly dealloyed from Gold–Nickel precursors

Publikationstyp
Journal Article
Date Issued
2021-08-31
Sprache
English
Author(s)
Cheng, Chuan  
Lührs, Lukas  
Institut
Werkstoffphysik und -technologie M-22  
TORE-DOI
10.15480/882.4773
TORE-URI
http://hdl.handle.net/11420/10292
Journal
Advanced functional materials  
Volume
31
Issue
48
Article Number
2107241
Citation
Advanced Functional Materials 31 (48): 2107241 (2021)
Publisher DOI
10.1002/adfm.202107241
Scopus ID
2-s2.0-85113822310
Publisher
Wiley-VCH
Dealloyed nanoporous gold (np-Au) has applications as oxygen reduction catalysis in Li-air batteries and fuel cells, or as actuators to convert electricity into mechanical energy. However, it faces the challenges of coarsening-induced structure instability, mechanical weakness due to low relative densities, and slow dealloying rates. Here, monolithic np-Au is dealloyed from a single-phase Au25Ni75 solid-solution at a one-order faster dealloying rate, ultra-low residual Ni content, and importantly, one-third more relative density than np-Au dealloyed from conventional Au25Ag75. The small atomic radius and low dealloying potential of the sacrificing element Ni are intrinsically beneficial to fast produce high relative density np-Au, as predicted by a general model for dealloying of binary alloys and validated by experiments. Stable, durable, and reversible actuation of np-Au takes place under cyclic potential triggering in alkaline and acidic electrolytes with negligible coarsening-induced strain-shift. The thermal and mechanical robustness of bulk np-Au is confirmed by two-order slower ligament coarsening rates during annealing at 300 °C and 45 MPa macroscopic yielding strength distinctive from the typical early onset of plastic yielding. This article opens a rich direction to achieve high relative density np-Au which is essential for porous network connectivity, mechanical strength, and nanostructure robustness for electrochemical functionality.
Subjects
charge-induced reversible strain
coarsening
electrochemical actuators
electrochemical dealloying
nanoporous gold
DDC Class
530: Physik
600: Technik
Publication version
publishedVersion
Lizenz
https://creativecommons.org/licenses/by-nc/4.0/
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