Metallic nanostructures play a vital role in the nanoscale engineering of flexible optoelectronic devices as active units. Due to the limited flexibility properties of nanoparticles, researchers are devoting much more attention nowadays to nanowires (NWs) for designing flexible transparent electrodes for different electronic devices. Silver NW (AgNW) possesses a 1D structure with a changeable aspect ratio. It also includes up-to-date properties for future optoelectronic devices, such as low cost, high conductivity, high transparency, and mechanical flexibility. In view of the increasing demand for AgNWs, commercial-scale synthesis of AgNWs is inevitable. However, high discrepancies among the published data have resulted in a major delay in its commercialization. Therefore, this review critically discusses the ignored factors that limit AgNW commercialization and provide possible solutions.

中文翻译：

---

银纳米线：对其合成、特性和限制其商业化的主要因素的重点回顾

金属纳米结构在柔性光电器件作为活性单元的纳米级工程中起着至关重要的作用。由于纳米粒子的柔韧性有限，如今研究人员将更多注意力放在纳米线 (NW) 上，用于为不同的电子设备设计柔性透明电极。银 NW (AgNW) 具有纵横比可变的一维结构。它还包括未来光电设备的最新特性，例如低成本、高导电性、高透明度和机械灵活性。鉴于对 AgNW 的需求不断增加，AgNW 的商业规模合成是不可避免的。然而，已发布数据之间的巨大差异导致其商业化的重大延迟。所以，