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The Role of Solution Aggregation Property towards High-Efficiency Non-Fullerene Organic Photovoltaic Cells.
Advanced Materials 2024 April 27
In organic photovoltaic cells, the solution-aggregation effect (SAE) is long considered a critical factor in achieving high power-conversion efficiencies for polymer donor (PD)/non-fullerene acceptor (NFA) blend systems. However, the underlying mechanism has yet to be fully understood. Herein, based on an extensive study of blends consisting of the representative 2D-benzodithiophene-based PDs and acceptor-donor-acceptor-type NFAs, we demonstrate that SAE shows a strong correlation with the aggregation kinetics during solidification, and the aggregation competition between PD and NFA determines the phase separation of blend film and thus the photovoltaic performance. PDs with strong SAEs enable earlier aggregation evolutions than NFAs, resulting in well-known polymer-templated fibrillar network structures and superior PCEs. With the weakening of PDs' aggregation effects, NFAs, showing stronger tendencies to aggregate, tend to form oversized domains, leading to significantly reduced external quantum efficiencies and fill factors. These trends reveal the importance of matching SAE between PD and NFA. We further evaluate the aggregation abilities of various materials and provide the aggregation ability/photovoltaic parameter diagrams of 64 PD/NFA combinations. Our work proposes a guiding criteria and facile approach to match efficient PD/NFA systems. This article is protected by copyright. All rights reserved.
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