<p>In this study, we fabricated novel silver nanowire/ZnO/MXene (AZM) composite films. Through the synergistic effect of ZnO nanoparticles and MXene, the as-prepared AZM structures exhibited outstanding optoelectronic properties combined with ultralow haze. Benefiting from the synergistic effect of ZnO nanoparticles and MXene, the resistance of the silver nanowires (Ag NWs) was not only effectively reduced but also became more uniform, thus enhancing the optoelectronic figure of merit (FoM). Remarkably, at a wavelength of 550&#xa0;nm, the AZM films with a single ZnO nanoparticles layer achieved an ultralow haze of only 4.1%, an average transmittance as high as 87.57% in the 400–800&#xa0;nm range, a sheet resistance of 10.32 Ω/sq, and an impressive FoM of 294.18. Compared with the pristine Ag NWs films, the AZM composite films demonstrates significantly enhanced overall optoelectronic performance, highlighting its great potential for high-performance optoelectronic device applications.</p>

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High-performance silver nanowire/ZnO/MXene composite films with excellent photoelectric properties

  • Junfeng He,
  • Ying Wang,
  • Yang Chen,
  • Daqiang Hu,
  • Hongbao Jia,
  • Hongyu Chen,
  • Jiaming Yan,
  • Zhaoying Song

摘要

In this study, we fabricated novel silver nanowire/ZnO/MXene (AZM) composite films. Through the synergistic effect of ZnO nanoparticles and MXene, the as-prepared AZM structures exhibited outstanding optoelectronic properties combined with ultralow haze. Benefiting from the synergistic effect of ZnO nanoparticles and MXene, the resistance of the silver nanowires (Ag NWs) was not only effectively reduced but also became more uniform, thus enhancing the optoelectronic figure of merit (FoM). Remarkably, at a wavelength of 550 nm, the AZM films with a single ZnO nanoparticles layer achieved an ultralow haze of only 4.1%, an average transmittance as high as 87.57% in the 400–800 nm range, a sheet resistance of 10.32 Ω/sq, and an impressive FoM of 294.18. Compared with the pristine Ag NWs films, the AZM composite films demonstrates significantly enhanced overall optoelectronic performance, highlighting its great potential for high-performance optoelectronic device applications.