AI Article Synopsis

  • Researchers developed high-performance organic solar cells (OSCs) using a dual-anode interface made of PEDOT:PSS and Br-2PACz, which enhanced both current and fill factor significantly.
  • The improvements in device performance were linked to better interface conductivity, increased hole mobility, and optimized morphology, leading to a current density of 27.84 mA/cm² and a fill factor of 78.18%.
  • Additionally, the OSCs showed great stability, retaining 94.7% of their initial efficiency after 500 hours in a nitrogen environment, indicating the effectiveness of the dual-anode strategy for improving OSC performance.

Article Abstract

Organic solar cells (OSCs) with high performance were prepared using poly(3,4-ethylenedioxythiophene):poly(styrenesulfonate) (PEDOT:PSS) and [2-(3,6-dibromo-9H-carbazol-9-yl)ethyl]phosphonic acid (Br-2PACz) double-layer films as the anode interface. By spin-coating a layer of Br-2PACz on PEDOT:PSS to form a PEDOT:PSS/Br-2PACz dual-anode interface, both the and FF of the device can be increased simultaneously, resulting in a high of 27.84 mA cm and a high FF of 78.18%. The promising result indicates that the PEDOT:PSS/Br-2PACz dual-anode interface is an effective way to improve the performance of OSCs. The improvement of device performance is mainly attributed to (1) improved interface conductivity; (2) increased hole mobility and more balanced carrier transport efficiency; and (3) optimized morphology, which well explains the increase of and FF of the device. In addition, the OSC based on the PEDOT:PSS/Br-2PACz dual-anode interface exhibits exceptional stability, as it can maintain 94.7% of its initial efficiency even after 500 h of storage in a nitrogen environment. This work provides a promising strategy for improving the efficiency and stability of OSCs by dual-anode interface modulation.

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Source
http://dx.doi.org/10.1021/acsami.3c17981DOI Listing

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