Liang Xie scite author profile

Although much research on device engineering have brought about significant improvements in PM6:Y6-based polymer solar cell (PSCs) performance, there is still a lack of relevant research to solve the problems caused by the over-aggregation of Y6 and the long-term stability of the device morphology. Herein, a newly designed and synthesized low-bandgap asymmetric small molecule acceptor TIT-2Cl based on thieno[3,2-b]indole core is elaborately introduced into PM6:Y6-based PSCs to suppress the over-aggregation of Y6 molecules with significantly increased efficiency from 15.78% to 17.00%. Moreover, the addition of TIT-2Cl contributes to improved light harvesting, the lowest unoccupied molecular orbital level of Y6:TIT-2Cl, charge separation, transport, and extraction. Simultaneously, the PSCs are further prepared by using the progressive spin-coating method of layer-by-layer (LBL). Due to the formation of vertical phase distribution and the improvement of carrier transport performance, the champion efficiency of LBL-type ternary PSCs reaches 18.18%, which is the highest efficiency reported for PM6:Y6-based PSCs, along with superior stability and compositional insensitivity. Therefore, the results show that the combination of ternary strategy by incorporating appropriate asymmetric molecules and the LBL method is an effective means to fabricate highly efficient stable PSCs.

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Pulsed electrocatalysis enables the stabilization and activation of carbon-based catalysts towards H2O2 production

Ding

Xie

Zhou

et al. 2022

Applied Catalysis B: Environmental

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Pulsed electrocatalysis enables an efficient 2-electron oxygen reduction reaction for H₂O₂production

et al. 2021

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Liang Xie

Selective H2O2 electrosynthesis by O-doped and transition-metal-O-doped carbon cathodes via O2 electroreduction: A critical review

Layer‐by‐Layer Processed PM6:Y6‐Based Stable Ternary Polymer Solar Cells with Improved Efficiency over 18% by Incorporating an Asymmetric Thieno[3,2‐b]indole‐Based Acceptor

Pulsed electrocatalysis enables the stabilization and activation of carbon-based catalysts towards H2O2 production

Pulsed electrocatalysis enables an efficient 2-electron oxygen reduction reaction for H₂O₂production

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Liang Xie

Selective H2O2 electrosynthesis by O-doped and transition-metal-O-doped carbon cathodes via O2 electroreduction: A critical review

Layer‐by‐Layer Processed PM6:Y6‐Based Stable Ternary Polymer Solar Cells with Improved Efficiency over 18% by Incorporating an Asymmetric Thieno[3,2‐b]indole‐Based Acceptor

Pulsed electrocatalysis enables the stabilization and activation of carbon-based catalysts towards H2O2 production

Pulsed electrocatalysis enables an efficient 2-electron oxygen reduction reaction for H2O2production

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Product

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Pulsed electrocatalysis enables an efficient 2-electron oxygen reduction reaction for H₂O₂production