Pa P.S.
National Taipei University of Education, TW
Keywords: digital paper, excimer irradiation, micro-electroremoval, nano-particles, PET-Diaphragm, touch-panel
A new design module using an excimer irradiation to assist in micro-electroremoval process as a precise recycle modus for the digital paper of the touch-panel offers a faster per-formance in removing the Indium-tin-oxide thin-films from the surface of the optical PET-diaphragm (PET) was developed. The low yield of the Indium-tin-oxide deposition is an im-portant factor in optoelectronic semiconductor production. In the current study, the Indium-tin-oxide layers proved difficult to remove, the excimer irradiation can be used to help with its removal. During the digital paper recycle processes the use of a 172nm excimer-lamp can remove the stubborn film residues, effectively improving the Indium-tin-oxide removal rate. For executing the removal-process of the fabrication, through the excimer irradiation pro-posed, the stubborn thin-films were easily broken up from the layer’s compositions to the nano-particles and escaped from the PET substrate quickly and cleanly. It is possible to effi-ciently strip away the Indium-tin-oxide. The optoelectronic semiconductors industry can ef-fectively reclaim defective products, thereby reducing production costs.
Journal: TechConnect Briefs
Volume: 1, Nanotechnology 2009: Fabrication, Particles, Characterization, MEMS, Electronics and Photonics
Published: May 3, 2009
Pages: 636 - 639
Industry sectors: Advanced Materials & Manufacturing | Sensors, MEMS, Electronics
Topics: Nanoelectronics, Photonic Materials & Devices
ISBN: 978-1-4398-1782-7