Kim et al., 2009 - Google Patents
A biaxial stretchable interconnect with liquid-alloy-covered joints on elastomeric substrateKim et al., 2009
View PDF- Document ID
- 18276081689037038709
- Author
- Kim H
- Maleki T
- Wei P
- Ziaie B
- Publication year
- Publication venue
- Journal of Microelectromechanical systems
External Links
Snippet
This paper reports a biaxial stretchable interconnect on an elastomeric substrate. To increase the stretchability of interconnects, a 2-D diamond-shaped geometry of gold on a polydimethylsiloxane substrate was adopted in which the potentially breakable points were …
- 239000000758 substrate 0 title abstract description 33
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Kim et al. | A biaxial stretchable interconnect with liquid-alloy-covered joints on elastomeric substrate | |
| Dang et al. | Printable stretchable interconnects | |
| Bose et al. | Screen-printed strain gauge for micro-strain detection applications | |
| Maddipatla et al. | A polyimide based force sensor fabricated using additive screen-printing process for flexible electronics | |
| Wang et al. | Liquid metal-based wearable tactile sensor for both temperature and contact force sensing | |
| Shi et al. | Screen‐printed soft capacitive sensors for spatial mapping of both positive and negative pressures | |
| AU2007293476B2 (en) | Soft mems | |
| Lu et al. | Soft anisotropic conductors as electric vias for ga-based liquid metal circuits | |
| Yokus et al. | Printed stretchable interconnects for smart garments: design, fabrication, and characterization | |
| Agarwala et al. | Development of bendable strain sensor with embedded microchannels using 3D printing | |
| Lacour et al. | Stretchable interconnects for elastic electronic surfaces | |
| US9797791B2 (en) | Multi-axis force sensing soft artificial skin | |
| Chang et al. | A large area flexible array sensors using screen printing technology | |
| Li et al. | Liquid metal-based electrical interconnects and interfaces with excellent stability and reliability for flexible electronics | |
| Hsu et al. | The effect of pitch on deformation behavior and the stretching-induced failure of a polymer-encapsulated stretchable circuit | |
| US7768376B2 (en) | Conformal mesh for thermal imaging | |
| White et al. | Multi-element strain gauge modules for soft sensory skins | |
| Han et al. | All-polymer hair structure with embedded three-dimensional piezoresistive force sensors | |
| WO2012103073A2 (en) | Non-differential elastomer curvature sensor | |
| Wissman et al. | Soft-matter electronics with stencil lithography | |
| Sun et al. | Stretchable conductors fabricated by stencil lithography and centrifugal force-assisted patterning of liquid metal | |
| Zhou et al. | Design and evaluation of a skin-like sensor with high stretchability for contact pressure measurement | |
| Bhuyan et al. | 2D and 3D structuring of freestanding metallic wires enabled by room-temperature welding for soft and stretchable electronics | |
| Hu et al. | Super flexible sensor skin using liquid metal as interconnect | |
| Baptist et al. | Fabrication of strain gauge based sensors for tactile skins |