posted on 2020-12-01, 22:13authored byGizem Birant, I. Murat Ozturk, Doga Doganay, H. Emrah Unalan, Alpan Bek
Plasmonic
interfaces are used as an alternative and highly effective
light management technique for solar cells. Top-down approaches produce
well-ordered and carefully designed plasmonic structures for tailor-made
light management; however, they are costly, and their fabrication
is time-consuming. Thus, their utilization for industrial-scale solar
cells is not trivial. It has been shown that dewetting is a cost-
and time-effective bottom-up approach for the fabrication of plasmonic
interfaces, yet it lacks precise control of the surface coverage for
optimum light management. Therefore, new strategies are actively sought.
In this work, the spray coating technique is used to deposit plasmonic
interfaces with polyol synthesized silver bipyramidal nanocubes onto
industrial-scale monocrystalline silicon solar cells. Through a systematic
study, the effect of surface coverage on cell performance is investigated,
as it is essential to utilize the interface in well-controlled amounts
for optimal light management. A relative increase in the photovoltaic
conversion efficiency of 3.5–6.4% upon creating localized surface
plasmon resonance-based plasmonic interfaces is demonstrated.