Efficiency enhancement in P3HT-based polymer solar cells with a NaYF4:2% Er~(3+), 18% Yb~(3+) up-converter

摘要

The commonly used donor material poly(3-hexylthiophene) (P3HT) confines the power conversion efficiency (PCE) in P3HTVbased polymer solar cells due to its relatively large bandgap of ~1.9 eV and the resultant limited absorption wavelength region of less than 650 nm. In this communication, the highly efficient up-conversion (UC) material NaYF4:2% Er~(3+), 18% Yb~(3+), converting near-infrared radiation into green and red emissions, is introduced into a P3HT/P3HT:[6,6] phenyl C_(61), butyric acid methyl ester (PC_(61)BM) bulk heterojunction solar cell, referred to as a "bilayer cell", to compensate for the nonabsorbable wavelength region of P3HT. With an optimal UC doping concentration of 11.7% (weight ratio of UC to P3HT) in the P3HT matrix, the short-circuit current density and PCE for UC-doped bilayer cell are as high as 10.89 mA crrr2 and 3.62%, about 16.6% and 10.7% higher than the P3HT/ P3HT:PC_(61)BM bilayer cell and 22.4% and 16.4% higher than the standard P3HT:PC_(61)BM bulk heterojunction one, respectively, although the fill factor in the UC-doped bilayer cell shows a slight decrease. The research result demonstrates that both the emission and the scattering of UC nanopartides are beneficial to the enhancement of the solar cell's electrical performances.