| Literature DB >> 28453282 |
Seung Hee Jeong1, Francisco Javier Cruz1, Si Chen2, Laurent Gravier3, Johan Liu2, Zhigang Wu1,4, Klas Hjort1, Shi-Li Zhang1, Zhi-Bin Zhang1.
Abstract
Conventional thermoelectric generators (TEGs) are normally hard, rigid, and flat. However, most objects have curvy surfaces, which require soft and even stretchable TEGs for maximizing efficiency of thermal energy harvesting. Here, soft and stretchable TEGs using conventional rigid Bi2Te3 pellets metallized with a liquid alloy is reported. The fabrication is implemented by means of a tailored layer-by-layer fabrication process. The STEGs exhibit an output power density of 40.6 μW/cm2 at room temperature. The STEGs are operational after being mechanically stretched-and-released more than 1000 times, thanks to the compliant contact between the liquid alloy interconnects and the rigid pellets. The demonstrated interconnect scheme will provide a new route to the development of soft and stretchable energy-harvesting avenues for a variety of emerging electronic applications.Entities:
Keywords: contact resistance; elastomer packaging; flexibility; interconnect; liquid alloy; stretchability; thermoelectric generator
Year: 2017 PMID: 28453282 DOI: 10.1021/acsami.7b04752
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229