Title :
Effects of mechanical strain on TFTs on spherical domes
Author :
Hsu, Pai-hui Iris ; Huang, M. ; Gleskova, H. ; Xi, Z. ; Suo, Z. ; Wagner, S. ; Sturm, James C.
Author_Institution :
Center for Photonics & Optoelectronic Mater., Princeton Univ., NJ, USA
fDate :
3/1/2004 12:00:00 AM
Abstract :
In this paper, amorphous-silicon (a-Si:H) thin-film transistors (TFTs) were fabricated on a plastic substrate, which was then permanently deformed into a spherical dome shape after the device fabrication process. The TFTs were patterned in an island structure to prevent cracking in the device films during the substrate deformation. In the majority of the TFTs, the off-current and gate leakage current do not change substantially. Depending on the island structure, the electron mobility either increased or decreased after deformation. This change in mobility was correlated with the mechanical strain in the device islands determined by finite element modeling of the deformation process. Tensile strain caused slightly higher mobility in planar structures. In a mesa-type structure, silicon films on top of the pillars could be in compression after the dome deformation, leading to a slight decrease in mobility.
Keywords :
elemental semiconductors; mechanical strength; silicon compounds; thin film transistors; Si:H; TFT; amorphous semiconductors; amorphous-silicon thin-film transistors; device films cracking; dome deformation; electron mobility; finite element modeling; gate leakage current; island structure; mechanical strain; mesa-type structure; off-current; planar structures; plasma chemical vapor deposition; plastic films; plastic substrate; silicon films; spherical domes; substrate deformation; Capacitive sensors; Deformable models; Electron mobility; Fabrication; Finite element methods; Leakage current; Plastics; Shape; Substrates; Thin film transistors;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2003.822873
