Solar Cell Architecture: Giant Efficiency Enhancement of GaAs Solar Cells with Graded Antireflection Layers Based on Syringelike ZnO Nanorod Arrays (Adv. Energy Mater. 4/2011)
Solar Cell Architecture: Giant Efficiency Enhancement of GaAs Solar Cells with Graded...
Yeh, Li‐Ko; Lai, Kun‐Yu; Lin, Guan‐Jhong; Fu, Po‐Han; Chang, Hung‐Chih; Lin, Chin‐An; He, Jr‐Hau
2011-07-01 00:00:00
Architecture innovations are crucial for enhancing the efficiency of solar cells (SCs), which depends on the probability of an incident photon being absorbed. GaAs SCs employing syringe‐like ZnO nanorods, providing a smooth index transition from air to the SC surface, show an efficiency boost of 32%. This light‐harvesting nanostructure is compatible with existing technology and applicable for various SCs, report Jr‐Hau He and co‐workers.
http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.pngAdvanced Energy MaterialsWileyhttp://www.deepdyve.com/lp/wiley/solar-cell-architecture-giant-efficiency-enhancement-of-gaas-solar-jD65nq80W6
Solar Cell Architecture: Giant Efficiency Enhancement of GaAs Solar Cells with Graded Antireflection Layers Based on Syringelike ZnO Nanorod Arrays (Adv. Energy Mater. 4/2011)
Architecture innovations are crucial for enhancing the efficiency of solar cells (SCs), which depends on the probability of an incident photon being absorbed. GaAs SCs employing syringe‐like ZnO nanorods, providing a smooth index transition from air to the SC surface, show an efficiency boost of 32%. This light‐harvesting nanostructure is compatible with existing technology and applicable for various SCs, report Jr‐Hau He and co‐workers.
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