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Events in Physics
Title: The Opto-Electronic Physics Which Just Broke The Efficiency Record In Solar Cells    (Colloquia)
Start Date: 09/17/2012
Time: 4:15 pm
Location: 1 LeConte Hall
Speaker: Eli Yablolovitch
Affiliation: Professor of Physical Electronics and Director of E3S
Contact Person: Sarah Wittmer   (510) 642-3034

Solar Cells are an enjoyable playground for Statistical Physics.  We are finally approaching the Shockley-Queisser (SQ) limit for single junction solar cell ~33.5% efficiency under the standard solar spectrum. Previously, the record had been stuck at 25.1%, during 1990-2007. Why then the 8% discrepancy between the theoretical limit 33.5% versus the previously achieved efficiency?

It is usual to blame material quality. But in the case of GaAs double heterostructures, the material is almost ideal with an internal fluorescence yield of >99%. This deepens the puzzle as to why the full theoretical SQ efficiency was not achieved?

Counter-intuitively, efficient external fluorescence is a necessity for approaching the ultimate limits. Now new efficiency records are being broken. Alta Devices Inc., has reached 28.8%. A great Solar Cell also needs to be a great Light Emitting Diode.

The single-crystal thin film technology that achieved these high efficiencies, is created by epitaxial liftoff, and can be produced at cost well below the other less efficient thin film solar technologies. The path is now open to a >30% efficient photovoltaic technology, that can be produced at low cost.