Title :
Fabrication of stress-induced self-rolled metal/insulator bifilm microtube with micromesh walls
Author :
Lee, K.N. ; Seo, Y.T. ; Kim, J.-M. ; Kim, Y.-K. ; Lee, Moon Ho ; Seong, W.K.
Author_Institution :
Korea Electron. Technol. Inst. (KETI), Seongnam, South Korea
Abstract :
A metal/insulator bifilm microtube with micromesh walls was constructed using a stress-assisted self-rolled-up technology. The Pt/Ti/SiO2 microtube with mesh-sidewalls was self-formed by a tensile-stressed metal/insulator thin film through the release of planar micromesh from the silicon substrate by removing underlying sacrificial silicon structures. The metal pads interconnect electrically and support mechanically the freestanding self-rolled microtube. The electrical conductance was measured to show small thermal mass and good thermal isolation properties of the microtube. The diameter of self-rolled microtube is around 25 μm. The beam width and the size of micromesh walls were 0.6 μm and 5 μm, respectively. Thickness of Pt layer and SiO2 layer was both 100 nm.
Keywords :
electrical conductivity; insulating thin films; internal stresses; metal-insulator boundaries; metallic thin films; micromechanical devices; platinum; silicon compounds; titanium; Pt-Ti-SiO2; Si; electrical conductance; metal pads; micromesh walls; planar micromesh; silicon substrate; size 0.6 mum to 5 mum; size 100 nm; stress-assisted self-rolled-up technology; stress-induced self-rolled metal/insulator bifilm microtube; thermal isolation properties; thermal mass; Fabrication; Insulators; Metals; Nanobioscience; Silicon; Substrates; Three-dimensional displays; Metal/insulator bifilms; Micromesh; Microtube; Self-rolling; Thin-film stress;
Conference_Titel :
Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS & EUROSENSORS XXVII), 2013 Transducers & Eurosensors XXVII: The 17th International Conference on
Conference_Location :
Barcelona
DOI :
10.1109/Transducers.2013.6626717
