The purpose of a photon ratchet in intermediate band solar cells

2016 IEEE 43rd Photovoltaic Specialists Conference (PVSC) Pub Date : 2016-06-05 DOI:10.1109/PVSC.2016.7749398

Andreas Pusch, M. Yoshida, N. P. Hylton, A. Mellor, Anthony Vaquero-Steiner, C. Phillips, O. Hess, N. Ekins‐Daukes

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引用次数: 2

Abstract

The intermediate band solar cell (IBSC) concept aims to improve upon the Shockley-Queisser limit for single bandgap solar cells by also making use of below bandgap photons through sequential absorption processes via an intermediate band (IB). In order for this concept to be translated into more efficient solar cells there are still challenges to overcome; one of the most important is the increased recombination (radiative as well as non-radiative) associated with the additional states in the bandgap. A proposal to mitigate those recombination losses is the introduction of a photon ratchet into the IBSC, which effectively trades some of the energy of the excited electrons against these recombination losses. We show here that this can lead to substantial improvements even in the radiative limiting efficiency, where no non-radiative recombination is taken into account and that this advantage is especially prominent for IBSCs in which the transitions into and out of the IB are not very absorptive, a case commonly encountered for current IBSC proposals.

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光子棘轮在中间波段太阳能电池中的作用

中间带太阳能电池(IBSC)的概念旨在通过通过中间带(IB)的顺序吸收过程利用带隙以下的光子，从而提高单带隙太阳能电池的Shockley-Queisser极限。为了将这一概念转化为更高效的太阳能电池，仍有许多挑战需要克服;其中最重要的是与带隙中附加态相关的复合(辐射和非辐射)的增加。减轻这些重组损失的一个建议是在IBSC中引入光子棘轮，它有效地交换了一些被激发电子的能量来抵消这些重组损失。我们在这里表明，即使在不考虑非辐射重组的情况下，这也可以导致辐射极限效率的实质性提高，并且对于进入和退出IB的转变不太吸收的IBSC来说，这一优势尤其突出，这是目前IBSC提案中经常遇到的情况。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 IEEE 43rd Photovoltaic Specialists Conference (PVSC)

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