Author
Listed:
- L. Guo
(National University of Singapore
Institute of Materials Research and Engineering, A*STAR (Agency for Science, Technology and Research))
- Y. Ren
(Institute of Materials Research and Engineering, A*STAR (Agency for Science, Technology and Research))
- L. Y. Kong
(National University of Singapore
Institute of Materials Research and Engineering, A*STAR (Agency for Science, Technology and Research)
NUS Graduate School for Integrative Sciences and Engineering, National University of Singapore)
- W. K. Chim
(National University of Singapore)
- S. Y. Chiam
(Institute of Materials Research and Engineering, A*STAR (Agency for Science, Technology and Research))
Abstract
Crack formation is typically undesirable as it represents mechanical failure that compromises strength and integrity. Recently, there have also been numerous attempts to control crack formation in materials with the aim to prevent or isolate crack propagation. In this work, we utilize fragmentation, at submicron and nanometre scales, to create ordered metal oxide film coatings. We introduce a simple method to create modified films using electroplating on a prepatterned substrate. The modified films undergo preferential fragmentation at locations defined by the initial structures on the substrate, yielding ordered structures. In thicker films, some randomness in the characteristic sizes of the fragments is introduced due to competition between crack propagation and crack creation. The method presented allows patterning of metal oxide films over relatively large areas by controlling the fragmentation process. We demonstrate use of the method to fabricate high-performance electrochromic structures, yielding good coloration contrast and high coloration efficiency.
Suggested Citation
L. Guo & Y. Ren & L. Y. Kong & W. K. Chim & S. Y. Chiam, 2016.
"Ordered fragmentation of oxide thin films at submicron scale,"
Nature Communications, Nature, vol. 7(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms13148
DOI: 10.1038/ncomms13148
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