Journal
ACS NANO
Volume 5, Issue 12, Pages 9501-9510Publisher
AMER CHEMICAL SOC
DOI: 10.1021/nn202485m
Keywords
hybrid solar cells; core-shell; light harvesting; energy harvesting; nanowire
Categories
Funding
- National Science Council [99-2120-M-007-012, 99-2622-E-002-019-CC3]
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A novel strategy employing core shell nanowire arrays (NWAs) consisting of Si/regioregular poly-(3-hexylthiophene) (P3HT) was demonstrated to facilitate efficient light harvesting and exciton dissociation/charge collection for hybrid solar cells (HSCs). We experimentally demonstrate broadband and omnidirectional light-harvesting characteristics of core shell NWA HSCs due to their subwavelength features, further supported by the simulation based on finite-difference time domain analysis. Meanwhile, core shell geometry of NWA HSCs guarantees efficient charge separation since the thickness of the P3HT shells Is comparable to the exciton diffusion length. Consequently, core shell HSCs exhibit a 61% Improvement of short-circuit current for a conversion efficiency (eta) enhancement of 31.1% as compared to the P3HT-infiltrated Si NWA HSCs with layers forming a flat air/polymer cell interface. The improvement of crystal quality of P3HT shells due to the formation of ordering structure at Si interfaces after air mass 1.5 global (AM 1.5G) illumination was confirmed by transmission electron microscopy and Raman spectroscopy. The core shell geometry with the interfacial Improvement by AM 1.5G illumination promotes more efficient exciton dissociation and charge separation, leading to eta improvement (similar to 140.6%) due to the considerable increase in V-oc from 257 to 346 mV, J(sc) from 11.7 to 18.9 mA/cm(2), and FF from 32.2 to 35.2%, which Is not observed in conventional P3HT-infiltrated Si NWA HSCs. The stability of the Si/P3HT core shell NWA HSCs in air ambient was carefully examined. The core shell geometry should be applicable to many other material systems of solar cells and thus holds high potential In third-generation solar cells.
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