Title :
Electrically conductive silicone nano-composites for stretchable RF devices
Author :
Agar, J. ; Durden, J. ; Staiculescu, D. ; Zhang, R. ; Gebara, E. ; Wong, C.P.
Author_Institution :
Sch. of Mater. Sci. & Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
The objective of this paper is to show how stretchable conductive composites can be utilized for the fabrication of ultra-low cost stretchable RF devices. We show a method to produce biocompatible highly conductive stretchable silicone composites via an in-situ nanoparticle formation and sintering process. Furthermore, we develop a simple, low cost, processing technique to fabricate stretchable RF transmission lines. These RF transmission lines are highly flexible, stretchable and robust. The S-parameter measurements show stable performance during mechanical deformation up to 6 GHz. Future development of this technology will enable ultra low cost consumer RF devices serving as a platform for future stretchable electronic devices.
Keywords :
S-parameters; nanocomposites; nanoparticles; radiofrequency integrated circuits; silicones; sintering; transmission lines; RF transmission line; S-parameter measurement; biocompatible highly conductive stretchable silicone composite; device fabrication; electrically conductive silicone nanocomposite; mechanical deformation; nanoparticle formation; sintering process; stretchable conductive composite; ultra-low cost stretchable RF device; Electrical resistance measurement; Fabrication; Materials; Microstrip; Radio frequency; Silver; Transmission line measurements; Biocompatible Electronics; Flexible; Nano-Composites; Stretchable;
Conference_Titel :
Microwave Symposium Digest (MTT), 2011 IEEE MTT-S International
Conference_Location :
Baltimore, MD
Print_ISBN :
978-1-61284-754-2
Electronic_ISBN :
0149-645X
DOI :
10.1109/MWSYM.2011.5972952
