We have investigated InGaN-based multi-striped orthogonal photon-photocarrier propagation solar cell (MOP3SC) in which sunlight propagates in a direction being orthogonal to that of photocarriers generated by the sunlight. Thanks to the orthogonality, in MOP3SC, absorption of the sunlight and collection of the photocarriers can be simultaneously and independently optimized with no trade-off. Furthermore, by exploiting the degree of freedom along the photon propagation and using multi-semiconductor stripes in which the incoming photons first encounter the widest gap semiconductor, and the narrowest at last, we can convert the whole solar spectrum into electricity resulting in the high conversion efficiency. For processing MOP3SC, we have developed Clean Unit System Platform (CUSP), which turns out to be able to serve as clean versatile environment having low power-consumption and high cost-performance. CUSP is suitable not only for processing devices, but also for cross-disciplinary fields, including medical/hygienic applications.
|Journal||IOP Conference Series: Earth and Environmental Science|
|Publication status||Published - 2017 Nov 9|
|Event||2nd International Conference on New Energy and Future Energy System, NEFES 2017 - Kunming, China|
Duration: 2017 Sep 22 → 2017 Sep 25
ASJC Scopus subject areas
- Environmental Science(all)
- Earth and Planetary Sciences(all)