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Semiconductor processes and nanofabrication |
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High-efficiency photo-electron conversion devices Semiconductor processes and nanofabrication Characterizations and applications of nanomaterials Optical characterization of graphene Graphene-gold oxide photodetector Optical analysis of hollow gold nanoparticles Photomodification of hollow gold nanoparticles for high-density data storage Light harvesting and light extraction Light extraction efficiency of LEDs Antireflection structures for solar cells Optical analysis techniques Eco-friendly devices and sensors
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Using colloidal lithography to fabricate and optimize sub-wavelength pyramidal and honeycomb structures in solar cells The external quantum efficiency of solar cells can be improved by using texturing pyramid- and honeycomb-like structures with minimum reflection. In this study, we investigated the reflection properties of texturing structures through rigorous coupled-wave analysis and the threedimensional finite-difference time domains (FDTD) method to analyze close-packed texturing structures. We also demonstrate a simple method— combining sub-wavelength-scale monolayer and bilayer polystyrene spheres with a one-step reactive ion etching process—to fabricate optimized pyramid- and honeycomb-shaped antireflection structures, respectively. Thus, sub-wavelength pyramidal and honeycomb-like structures displaying low reflectance were obtained readily without the need for any lithography equipment. |
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Schematic illustrations of (a) the reflection and transmission diffraction orders for incident rays of light upon interaction with a pyramidal structure and (b) the pyramidal structures utilized for rigorous coupled-wave simulation. |
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Copyright(c) 2008 Nano-optpelectronics Lab., Department of Material Science and Engineering, National Taiwan University No. 1, Sec. 4, Roosevelt Road, Taipei, 10617 Taiwan(R.O.C) Phone:+886-2-3366-3240 Fax:+886-2-2362-7651 |
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