Issue 4, 2023

Suppressing the energetic disorder of all-polymer solar cells enables over 18% efficiency

Abstract

All-polymer solar cells (all-PSCs) usually have a complex blend morphology due to their higher probability of chain entanglement. Under these conditions, the larger energetic disorder is one of the most important factors that hinder the increase in power conversion efficiency (PCE). Here, to take full advantage of two highly efficient polymer donors, PBDB-TF and PBQx-TF, we design and synthesize three ternary copolymers, PQB-x (x represents 1–3). The results suggest that the optical absorption spectrum and molecular energy levels can be linearly tuned by adjusting the content of the acceptor component. Interestingly, ternary copolymerization changes the molecular orientation from the coexistence of face-on and edge-on to face-on only and accordingly suppresses the energetic disorder (44, 47, and 53 meV for PQB-2, PBQx-TF, and PBDB-TF). In cell devices based on a polymer acceptor PY-IT, PQB-2 shows decreased energy loss and thus an improved open-circuit voltage of 0.942 V. Transient absorption measurements reveal that the structural component ascribed to PBQx-TF provides an efficient charge transfer channel with PY-IT. As a result, the PQB-2:PY-IT-based device yields a maximum PCE of 18.1%, which is an outstanding value among all-PSCs. This study demonstrates that suppressing the energetic disorder by molecular design may be a feasible method for further improving the PCEs of all-PSCs.

Graphical abstract: Suppressing the energetic disorder of all-polymer solar cells enables over 18% efficiency

Supplementary files

Article information

Article type
Paper
Submitted
01 Nov 2022
Accepted
31 Jan 2023
First published
03 Feb 2023

Energy Environ. Sci., 2023,16, 1581-1589

Suppressing the energetic disorder of all-polymer solar cells enables over 18% efficiency

T. Zhang, Y. Xu, H. Yao, J. Zhang, P. Bi, Z. Chen, J. Wang, Y. Cui, L. Ma, K. Xian, Z. Li, X. Hao, Z. Wei and J. Hou, Energy Environ. Sci., 2023, 16, 1581 DOI: 10.1039/D2EE03535A

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