Luminescent solar concentrators doped with CdSe/CdS quantum dots provide a potentially low-cost and high-performance alternative to costly high-band-gap III–V semiconductor materials to serve as a top junction in multijunction photovoltaic devices for efficient utilization of blue photons. In this study, a photonic mirror was coupled with such a luminescent waveguide to form an optical cavity where emitted luminescence was trapped omnidirectionally. By mitigating escape cone and scattering losses, 82% of luminesced photons travel the length of the waveguide, creating a concentration ratio of 30.3 for blue photons in a waveguide with a geometric gain of 61. Further, we study the photon transport inside the luminescent waveguide, showing unimpeded photon collection across the entire length of the waveguide.
David R. Needell, Ognjen Ilic, Colton R. Bukowsky, Zach Nett, Lu Xu, Junwen He, Haley Bauser, Benjamin G. Lee, John F. Geisz, Ralph G. Nuzzo, Paul Alivisatos, Harry A. Atwater
David R. Needell, Ognjen Ilic, Colton R. Bukowsky, Zach Nett, Lu Xu, Junwen He, Haley Bauser, Benjamin G. Lee, John F. Geisz, Ralph G. Nuzzo, Paul Alivisatos, Harry A. Atwater
David A. Hanifi, Noah D. Bronstein, Brent A. Koscher, Zach Nett, Joseph K. Swabeck, Kaori Takano, Adam M. Schwartzberg, Lorenzo Maserati, Koen Vandewal, Yoeri van de Burgt, Alberto Salleo, Paul Alivisatos
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