Electric field engineering using quantum-size-effect-tuned heterojunctions
Online Publication Date2013-07-04
Print Publication Date2013-07
Permanent link to this recordhttp://hdl.handle.net/10754/552324
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AbstractA quantum junction solar cell architecture was recently reported that employs colloidal quantum dots (CQDs) on each side of the p-n junction. This architecture extends the range of design opportunities for CQD photovoltaics, since the bandgap can be tuned across the light-absorbing semiconductor layer via control over CQD size, employing solution-processed, room-temperature fabricated materials. We exploit this feature by designing and demonstrating a field-enhanced heterojunction architecture. We optimize the electric field profile within the solar cell through bandgap engineering, thereby improving carrier collection and achieving an increased open circuit voltage, resulting in a 12% improvement in power conversion efficiency.
CitationElectric field engineering using quantum-size-effect-tuned heterojunctions 2013, 103 (1):011106 Applied Physics Letters
JournalApplied Physics Letters