2022 article

Silver Nanowire Composite Electrode Enabling Highly Flexible, Robust Organic Photovoltaics

Booth, R. E., Schrickx, H. M., Hanby, G., Liu, Y., Qin, Y., Ade, H., … Brendan T. O'Connor. (2022, June 15). SOLAR RRL.

By: R. Booth n, H. Schrickx n, G. Hanby n, Y. Liu n, Y. Qin n, H. Ade n, Y. Zhu n, . Brendan T. O'Connor

co-author countries: United States of America 🇺🇸
author keywords: flexible organic photovoltaics; flexible transparent electrodes; mechanically stable organic photovoltaics; organic solar cells; silver nanowire electrodes
Source: Web Of Science
Added: June 27, 2022

Using Ag nanowires (NWs) is a promising approach to make flexible and transparent conducting electrodes for organic photovoltaics (OPVs). However, the roughness of the NWs can decrease device performance. Herein, a Ag NW electrode embedded in a UV‐curable epoxy that uses a simple mechanical lift‐off process resulting in highly planar electrodes is demonstrated. A bimodal blend of Ag NWs with varying aspect ratios is used to optimize the transparency and conductivity of the electrode. In addition, a ZnO layer is coated on the Ag NWs prior to the embedding process to ensure low contact resistance in the OPV cells. The resulting resin‐embedded ZnO‐encapsulated silver nanowire (REZEN) electrode is found to have excellent mechanical stability. REZEN electrode‐based OPV cells exhibit comparable performance with reference devices, achieving maximum power conversion efficiency (PCE) of 13.5% and 13.6% respectively. The REZEN‐based OPV cells are also mechanically robust, retaining 97% of their PCE after 5000 cycles at R = 1.2 mm and 94% PCE after 1000 cycles at R = 0.55 mm. This flexibility is among the highest reported for freestanding devices. Thus, the REZEN electrode is a promising and simple strategy to achieve mechanically robust ITO‐free flexible OPV cells.