Non-equilibrium dynamics, materials and structures for hot carrier solar cells: a detailed review
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Koenig, Dirk
Yao, Yao
Puthen-Veettil, B.
Smith, Sean
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Institute of Physics Publishing
Abstract
Since their advent around the start of the millennium, hot carrier solar cells came into the focus
of a broader research community as one of the so-called third generation photovoltaic concepts.
As an exciting research field enthusiastically covered by an increasing number of publications,
some aspects of hot carrier solar cell research, namely data interpretation and conclusions with
respect to high efficiency devices, appear to show some discrepancies. It therefore appeared
timely to provide a detailed review of current hot carrier solar cell research from the
fundamentals of non-equilibrium carrier dynamics to complete solar cells to enable
advancement with the knowledge of solid state and semiconductor physics being fully taken
into account. In our work, we discuss the hot carrier non-equilibrium dynamics right from the
process of hot carrier generation, going beyond the standard 1-dimensional approach, hence
exploring phononic and other dynamic limits as occurring in real materials. Thermodynamic
modelling of hot carrier solar cells in the literature presented conversion efficiencies from 0.04
to 84%. This situation called for an evaluation and a comparison against the Shockley-Queisser
efficiency limit. The assessment of characterisation techniques used for dynamic and
steady-state detection of hot carrier populations form another part of this review, including to
what extent certain data can or should be used in regards to hot carrier solar cells. With this
wealth of information, we work through III-V, IV-IV, II-VI, and non-trivial materials which
were proposed for hot carrier absorbers in the literature. With the physics and materials
considered, we then examine energy-selective contact designs which also have to fulfil the
criterion of carrier selectivity. Finally, we look at the whole hot carrier solar cell, departing from
the original concept to more feasible designs and qualitatively new approaches.
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Semiconductor Science and Technology
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Restricted until
2099-12-31
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