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Improving both performance and stability of n-type organic semiconductors by vitamin C.

Liqian YuanYinan HuangXiaosong ChenYixuan GaoXiaonan MaZhongwu WangYongxu HuJinbo HeCheng HanJing LiZhiyun LiXuefei WengRong HuangYi CuiLiqiang LiWenping Hu
Published in: Nature materials (2024)
Organic semiconductors (OSCs) are one of the most promising candidates for flexible, wearable and large-area electronics. However, the development of n-type OSCs has been severely held back due to the poor stability of their most candidates, that is, the intrinsically high reactivity of negatively charged polarons to oxygen and water. Here we demonstrate a general strategy based on vitamin C to stabilize n-type OSCs, remarkably improving the performance and stability of their device, for example, organic field-effect transistors. Vitamin C scavenges reactive oxygen species and inhibits their generation by sacrificial oxidation and non-sacrificial triplet quenching in a cascade process, which not only lastingly prevents molecular structure from oxidation damage but also passivates the latent electron traps to stabilize electron transport. This study presents a way to overcome the long-standing stability problem of n-type OSCs and devices.
Keyphrases
  • reactive oxygen species
  • water soluble
  • electron transfer
  • heart rate
  • nitric oxide
  • single molecule
  • solar cells
  • electron microscopy