TY - JOUR
T1 - Improved efficiency by selenophene-substitution for cyclometalated tris-Ir(III) complex based organic solar cells
AU - You, Duoquan
AU - Gao, Xuyu
AU - Zhou, Aihua
AU - Wang, Jingsheng
AU - Tao, Yeting
AU - Tao, Xianwang
AU - Tao, Youtian
N1 - Publisher Copyright:
© 2024 Elsevier B.V.
PY - 2024/3/15
Y1 - 2024/3/15
N2 - Organometallic complexes have received insufficient attention in organic solar cells compared to pure organic/polymer counterparts. In this work, based on a previously reported homoleptic tris-Ir(III) complex TBz3Ir, through replacing the central thiophene by selenophene in the cyclometalated ligand of hexylterthiophenebenzo[d]thiazole (TBz), a novel Ir complex of Se-TBz3Ir is developed. Upon Se-substitution, Se-TBz3Ir demonstrates bathochromic-shift absorbance, strengthened light-harvest capacity as well as redshifted and decreased phosphorescence emission in comparison to sulphuric-TBz3Ir. In addition, blending Se-TBz3Ir with Y6 acceptor facilitates to form strong acceptor aggregation domains, which contributes for favourable charge dynamics. Consequently, organic solar cells based on Se-TBz3Ir donor afford outperformed power conversion efficiency of 11.12% compared to 9.97% of the parental TBz3Ir:Y6. The improvement in photovoltaic properties indicates suitable selenophene substitution is an effective strategy for developing high-performance organometallic photovoltaic materials.
AB - Organometallic complexes have received insufficient attention in organic solar cells compared to pure organic/polymer counterparts. In this work, based on a previously reported homoleptic tris-Ir(III) complex TBz3Ir, through replacing the central thiophene by selenophene in the cyclometalated ligand of hexylterthiophenebenzo[d]thiazole (TBz), a novel Ir complex of Se-TBz3Ir is developed. Upon Se-substitution, Se-TBz3Ir demonstrates bathochromic-shift absorbance, strengthened light-harvest capacity as well as redshifted and decreased phosphorescence emission in comparison to sulphuric-TBz3Ir. In addition, blending Se-TBz3Ir with Y6 acceptor facilitates to form strong acceptor aggregation domains, which contributes for favourable charge dynamics. Consequently, organic solar cells based on Se-TBz3Ir donor afford outperformed power conversion efficiency of 11.12% compared to 9.97% of the parental TBz3Ir:Y6. The improvement in photovoltaic properties indicates suitable selenophene substitution is an effective strategy for developing high-performance organometallic photovoltaic materials.
KW - Donor materials
KW - Iridium(III) complexes
KW - Organic solar cells
KW - Power conversion efficiency
KW - Selenophene
UR - http://www.scopus.com/inward/record.url?scp=85185536635&partnerID=8YFLogxK
U2 - 10.1016/j.jorganchem.2024.123050
DO - 10.1016/j.jorganchem.2024.123050
M3 - 文章
AN - SCOPUS:85185536635
SN - 0022-328X
VL - 1008
JO - Journal of Organometallic Chemistry
JF - Journal of Organometallic Chemistry
M1 - 123050
ER -
