Low cost solar energy conversion to electricity

As part of this project, we enhanced the possible efficiency of energy conversion from solar to electricity using our thermally enhanced photoluminescence (TEPL) concept. This effort was published in:
N. Kruger, A. Manor, T. Sabaphati and C. Rotschild, Thermally enhanced photoluminescence: from fundamentals to engineering optimization, Emerging leaders, Journal of optics, (2018)***
*** This paper is part of Emerging leaders in various fields of optics.

In addition, we presented the concept in a few conferences
-N. Kruger, A. Manor, T. Sabaphati and C. Rotschild, Thermally Enhanced Photo-Luminescence solar conversion prototype design SPIE 2018.
-C. Rotschild, Thermally modified photoluminescence matched to GaAs and Si with 40% optical conversion efficiency and 4-fold reduction in heat load, QUANTSOL, Austria, 2018.


Later we focused on the need to use the heat in the TEPL to offer a baseload solar energy solution. This new concept was published in various conferences:
-C. Rotschild, Luminescent solar power for solar baseload energy solution, QUANTSOL, Austria, 2019.
-C. Rotschild, Luminescent solar power for solar baseload energy solution, Solar PACES, South Korea 2019.
-C. Rotschild, Luminescent solar power for solar baseload energy solution, CSP-Madrid, 2019
-S. Haviv, N. Revivo, N. Kruger, C. Rotschild, Luminescent solar power for solar baseload energy solution, SPIE, California 2020

and a paper is currently under review:
S Haviv, N. Revivo, N. Kruger, M. Sokol, B. Ratzker, A. Wagner, S. Kalabuchov, A. Manor, B. Khachatryan, M. Shustov, N. Frage, C. Rotschild, Luminescent solar power- quantum separation between free-energy and heat for breaking the costs of base-load solar energy generation, under review (2020)
S Haviv, N Revivo, N Kruger, C RotschildLuminescent Solar Power–Quantum separation between free-energy and heat for cost-effective base-load solar energy generation, European Quantum Electronics Conference, jsiii_1_5 (2019)