Physical Intelligence
Article
2015
Transfer Printing of Metallic Microstructures on Adhesion-Promoting Hydrogel Substrates
Fabrication schemes that integrate inorganic microstructures with hydrogel substrates are essential for advancing flexible electronics. A transfer printing process that is made possible through the design and synthesis of adhesion-promoting hydrogels as target substrates is reported. This fabrication technique may advance ultracompliant electronics by melding microfabricated structures with swollen hydrogel substrates.
| Author(s): | Wu, Haosheng and Sariola, Veikko and Zhu, Congcong and Zhao, Jingsi and Sitti, Metin and Bettinger, Christopher J |
| Journal: | Advanced Materials |
| Volume: | 27 |
| Number (issue): | 22 |
| Pages: | 3398--3404 |
| Year: | 2015 |
| Month: | April |
| Day: | 22 |
| BibTeX Type: | Article (article) |
| DOI: | 10.1002/adma.201500954 |
| Electronic Archiving: | grant_archive |
BibTeX
@article{wu2015transfer,
title = {Transfer Printing of Metallic Microstructures on Adhesion-Promoting Hydrogel Substrates},
journal = {Advanced Materials},
abstract = {Fabrication schemes that integrate inorganic microstructures with hydrogel substrates are essential for advancing flexible electronics. A transfer printing process that is made possible through the design and synthesis of adhesion-promoting hydrogels as target substrates is reported. This fabrication technique may advance ultracompliant electronics by melding microfabricated structures with swollen hydrogel substrates.},
volume = {27},
number = {22},
pages = {3398--3404},
month = apr,
year = {2015},
author = {Wu, Haosheng and Sariola, Veikko and Zhu, Congcong and Zhao, Jingsi and Sitti, Metin and Bettinger, Christopher J},
doi = {10.1002/adma.201500954},
month_numeric = {4}
}