Controlled 3D Buckling of Silicon Nanowires for Stretchable Electronics
Citations Over TimeTop 10% of 2010 papers
Abstract
Silicon (Si) nanowire (NW) coils were fabricated on elastomeric substrates by a controlled buckling process. Si NWs were first transferred onto prestrained and ultraviolet/ozone (UVO)-treated poly(dimethylsiloxane) (PDMS) substrates and buckled upon release of the prestrain. Two buckling modes (the in-plane wavy mode and the three-dimensional coiled mode) were found; a transition between them was achieved by controlling the UVO treatment of PDMS. Structural characterization revealed that the NW coils were oval-shaped. The oval-shaped NW coils exhibited very large stretchability up to the failure strain of PDMS (∼104% in our study). Such a large stretchability relies on the effectiveness of the coil shape in mitigating the maximum local strain, with a mechanics that is similar to the motion of a coil spring. Single NW devices based on coiled NWs were demonstrated with a nearly constant electrical response in a large strain range. In addition to the wavy shape, the coil shape represents an effective architecture in accommodating large tension, compression, bending, and twist, which may find important applications for stretchable electronics and other stretchable technologies.
Related Papers
- → Highly Transparent, Stretchable, and Conducting Ionoelastomers Based on Poly(ionic liquid)s(2021)74 cited
- → Elastomeric substrates with embedded stiff platforms for stretchable electronics(2013)114 cited
- → Robust, Self-Healable Siloxane Elastomers Constructed by Multiple Dynamic Bonds for Stretchable Electronics and Microsystems(2021)27 cited
- → Stretchable, Bifacial Si-Organic Hybrid Solar Cells by Vertical Array of Si Micropillars Embedded into Elastomeric Substrates(2018)16 cited
- → Stretchable Electronic Devices: PDMS‐Based Elastomer Tuned Soft, Stretchable, and Sticky for Epidermal Electronics (Adv. Mater. 28/2016)(2016)13 cited