Employing a Narrow-Band-Gap Mediator in Ternary Solar Cells for Enhanced Photovoltaic Performance

Abstract: Ternary organic solar cells (OSCs) provide a convenient and effective means to further improve the power conversion efficiency (PCE) of binary ones via composition control. However, the role of the third component remains to be explored in specific binary systems. Herein, we report ternary blend solar cells by adding the narrow-band-gap donor PCE10 as the mediator into the PBDB-T:IDTT-T binary blend system. The extended absorption, efficient fluorescence resonance energy transfer, enhanced charge dissociation,… Show more

“…A small energy offset between the LUMO levels of the donor and acceptors (<0.20 eV) is observed, though it has been shown that such a small offset can efficiently drive charge separation in nonfullerene acceptor based bulk heterojunctions. [39][40][41][42] 43 The effective charge transfer between the PCE10 donor and acceptors is confirmed by photoluminescence (PL) spectroscopy (Figure 1b). An obvious decrease in the intensity of the PCE10 fluorescence spectrum upon mixing with acceptors 3a, 3b, and 3c…”

“…An energy level diagram compares the IDTT-TBTA acceptors to the donor polymer PCE10 (Figure b), showing the right alignment of the HOMO and LUMO levels of PCE10 with those of the acceptors (Table ). A small energy offset between the LUMO levels of the donor and acceptors (<0.20 eV) is observed, though it has been shown that such a small offset can efficiently drive charge separation in non-fullerene-acceptor-based bulk heterojunctions. − …”

Substitution Effect on Thiobarbituric Acid End Groups for High Open-Circuit Voltage Non-Fullerene Organic Solar Cells

“…A small energy offset between the LUMO levels of the donor and acceptors (<0.20 eV) is observed, though it has been shown that such a small offset can efficiently drive charge separation in nonfullerene acceptor based bulk heterojunctions. [39][40][41][42] 43 The effective charge transfer between the PCE10 donor and acceptors is confirmed by photoluminescence (PL) spectroscopy (Figure 1b). An obvious decrease in the intensity of the PCE10 fluorescence spectrum upon mixing with acceptors 3a, 3b, and 3c…”

“…An energy level diagram compares the IDTT-TBTA acceptors to the donor polymer PCE10 (Figure b), showing the right alignment of the HOMO and LUMO levels of PCE10 with those of the acceptors (Table ). A small energy offset between the LUMO levels of the donor and acceptors (<0.20 eV) is observed, though it has been shown that such a small offset can efficiently drive charge separation in non-fullerene-acceptor-based bulk heterojunctions. − …”

Substitution Effect on Thiobarbituric Acid End Groups for High Open-Circuit Voltage Non-Fullerene Organic Solar Cells

“…[13] However, the narrow absorption spectra, amorphous morphology, and relatively strong recombination of the photovoltaic materials are hindrances to improve efficiencies of organic photovoltaics (OPVs). To this end, ternary and quaternary strategies [14][15][16][17] have been proposed. Especially, ternary solar cells taking a third component as guest molecules (acceptor or donor materials) have attracted much attention.…”

High‐Performance Ternary Polymer Solar Cells Enabled by a New Narrow Bandgap Nonfullerene Small Molecule Acceptor with a Higher LUMO Level

“…In today's diversified field of solar cells, organic solar cells (OSCs) that can be prepared simply by a solution method have attracted attention because of the significant merits of lightweight, low cost, flexibility, and translucent preparation. [1][2][3][4] In recent years, with the emergence of novel high-efficiency organic photovoltaic materials (such as D18, Y6, etc. ), the performance of OSCs has been rapidly optimized.…”

Non-fullerene acceptor alloy strategy enabling stable ternary polymer solar cells with efficiency of 17.74%