Options
Realizing nanostructure-enabled applications through dealloyed materials
Publikationstyp
Review Article
Date Issued
2025-05-01
Sprache
English
Author(s)
Journal
Volume
50
Issue
5
Start Page
599
End Page
607
Article Number
113601
Citation
MRS Bulletin 50 (5): 599-607 (2025)
Publisher DOI
Scopus ID
ISSN
08837694
Nanoporous metals produced via dealloying have attracted significant interest due to the interesting physics surrounding their morphological evolution and how their topologically complex structure influences mechanical, optical, and electrochemical properties. Their impressive nanostructure-enabled properties—such as increased catalytic activity, surface-enhanced Raman signals, high strength, and large surface-to-volume ratio—have led to catalysts, sensors, actuators, energy storage, and biomedical device coatings with superior properties and performance. However, translation of nanoporous metals into practical applications has revealed needs for new material systems and manufacturing approaches, and consequently better predictive models for application-specific operating conditions. The goal of this issue of MRS Bulletin is to elaborate on the latest advances in emerging methods and technologies of dealloyed materials that enable new structures and form factors, machine learning-guided design and synthesis, material recovery and sustainability for scaled-up production, and stable performance in intended operational environments.
Subjects
Corrosion
Functional
Hierarchical
Machine learning
Metal
Nanostructure
Porosity
DDC Class
600: Technology