Naomi C. Coronel scite author profile

Light trapping is an important issue for thin film silicon photovoltaic cells due to the limited absorption coefficient for near infrared light. In this letter, we present a photonic structure that combines porous anodic aluminum oxide with a distributed Bragg reflector (DBR) on the backside of Si cells for light trapping. Simulation results show that this low-cost, self-assembled structure can provide more than 50% relative efficiency enhancement for a 2 m thin film crystalline Si solar cell, as compared to a reference cell without any back structure. As a proof of concept, we incorporated the backside structure into thick silicon wafers. The enhancement of light absorption near the band edge of silicon is demonstrated for our proposed light-trapping structure, in agreement with the theoretical predictions.

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Earth-abundant ZnSn<inf>x</inf>Ge<inf>1−x</inf>N<inf>2</inf> alloys as potential photovoltaic absorber materials

Coronel

Lahourcade

Delaney

et al. 2012

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Naomi C. Coronel

Structural and Optoelectronic Characterization of RF Sputtered ZnSnN₂

Bandgap Tunability in Zn(Sn,Ge)N₂ Semiconductor Alloys

Integration of Self-Assembled Porous Alumina and Distributed Bragg Reflector for Light Trapping in Si Photovoltaic Devices

Earth-abundant ZnSn<inf>x</inf>Ge<inf>1−x</inf>N<inf>2</inf> alloys as potential photovoltaic absorber materials

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Naomi C. Coronel

Structural and Optoelectronic Characterization of RF Sputtered ZnSnN2

Bandgap Tunability in Zn(Sn,Ge)N2 Semiconductor Alloys

Integration of Self-Assembled Porous Alumina and Distributed Bragg Reflector for Light Trapping in Si Photovoltaic Devices

Earth-abundant ZnSn<inf>x</inf>Ge<inf>1&#x2212;x</inf>N<inf>2</inf> alloys as potential photovoltaic absorber materials

Contact Info

Product

Resources

About

Structural and Optoelectronic Characterization of RF Sputtered ZnSnN₂

Bandgap Tunability in Zn(Sn,Ge)N₂ Semiconductor Alloys

Earth-abundant ZnSn<inf>x</inf>Ge<inf>1−x</inf>N<inf>2</inf> alloys as potential photovoltaic absorber materials