2022
DOI: 10.1002/adma.202205009
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A New Polymer Donor Enables Binary All‐Polymer Organic Photovoltaic Cells with 18% Efficiency and Excellent Mechanical Robustness

Abstract: The development of polymerized small‐molecule acceptors has boosted the power conversion efficiencies (PCEs) of all‐polymer organic photovoltaic (OPV) cells to 17%. However, the polymer donors suitable for all‐polymer OPV cells are still lacking, restricting the further improvement of their PCEs. Herein, a new polymer donor named PQM‐Cl is designed and its photovoltaic performance is explored. The negative electrostatic potential and low average local ionization energy distribution of the PQM‐Cl surface enable… Show more

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Cited by 186 publications
(192 citation statements)
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“…New polymer or small-molecule donors with complementary absorptions, suitable energy levels, crystallinity, and miscibility with Y-series-based polymer acceptors should be designed to simultaneously improve the V oc , J sc , and FF of the resulting PSCs. To acquire high-performance D-A copolymer donors, the development of acceptor moieties based on quinoxaline (PBQx-H-TF and PQM-Cl) , or imide (PTzBI- o F and Q4) , has been proven a feasible method. The Same-A-Strategy using BT moieties (D18 and JD40) , can be applied to ensure good miscibility between polymer donors and Y-series-based polymer acceptors.…”
Section: Discussionmentioning
confidence: 99%
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“…New polymer or small-molecule donors with complementary absorptions, suitable energy levels, crystallinity, and miscibility with Y-series-based polymer acceptors should be designed to simultaneously improve the V oc , J sc , and FF of the resulting PSCs. To acquire high-performance D-A copolymer donors, the development of acceptor moieties based on quinoxaline (PBQx-H-TF and PQM-Cl) , or imide (PTzBI- o F and Q4) , has been proven a feasible method. The Same-A-Strategy using BT moieties (D18 and JD40) , can be applied to ensure good miscibility between polymer donors and Y-series-based polymer acceptors.…”
Section: Discussionmentioning
confidence: 99%
“…The corresponding Y-series-based polymer acceptors also overcome the limitations of D-A-type and A-D-A-type polymer acceptors by reducing the energy loss for high short-circuit current density ( J sc ) and open-circuit voltage ( V oc ) and by suppressing unfavorable charge-transfer states and charge carrier recombination. Since the first Y-series-based polymer acceptor was reported by Huang et al in 2020, this type of acceptors was deemed the best n-type materials. Very recently, all-PSCs containing Y-series-based polymer acceptor achieved a high PCE of 18%, comparable to that of Y-series SMA-based devices. , Nevertheless, if flexible organic solar cells (OSCs) are to be considered in the future, the continuous development of a new polymer acceptor with superior thermal and mechanical stability is necessary. For such research, it is of the utmost importance to examine exhaustively all approaches utilized in the past three years with all-PSCs comprising polymer acceptors based on the Y-series SMAs.…”
mentioning
confidence: 99%
“…When the PSMA strategy was used for Y6 molecules, [57][58][59][60][61][62] the PCEs increased to over 18 %. [63] Note that the M n s are usually lower than 15 kDa for Y6-based highly efficient PSMA acceptors, corresponding to a repeat unit number of � 10. The impact of molecular weight, PDI, and chain conformation on photovoltaic performance should be carefully studied.…”
Section: All-polymer Oscsmentioning
confidence: 99%
“…Due to their similar advantages to small molecule acceptor-based OSCs, All-PSCs possess better mechanical properties, such as higher tensile and flexural toughness, and potentially higher thermal stability, which give them better prospects for mass production [ 18 , 19 , 20 ]. Recently, the strategy of polymerized small molecule acceptors (PSMAs) has boosted the efficiency of All-PSCs to over 17% [ 21 , 22 ]. However, most of the high PCEs for these all-PSCs have been based on active layers that were processed from either chloroform (CF) or a CF-dominant solvent mixture [ 20 , 23 , 24 ].…”
Section: Introductionmentioning
confidence: 99%