Green synthesis is one of the most valuable and emerging methods for the synthesis of nanoparticles (NPs) nowadays, presenting imperative biological benefits, reduced process time, cost-effectiveness, and environmental benefits, as an alternative to physical and chemical processes. Silver, a noble metal, possess unique properties and potential applications in medicine, requiring the search for novel and suitable tools for its production due to the growing demand. The exploration of plants diversity can be used towards rapid and single-step preparatory methods for various NPs, maintaining the green principle over conventional ones, an important aspect for medical applications. Plants contain bio-organics components, which usually play multiple roles as reducing, capping as well as stabilizing agents for metal compounds into silver nanoparticles (AgNPs). The stability of these NPs is governed by certain parameters, which influence stability and bioavailability. In this perspective, this review aims to provide a comprehensive view to understand the possible induced mechanism, current scenario and future prospects for the bio-inspired synthesis of AgNPs.

绿色合成是当今最有价值的新兴纳米颗粒（NP）合成方法之一，它具有必不可少的生物学益处，缩短的处理时间，成本效益和环境效益，可以替代物理和化学过程。银是一种贵金属，具有独特的性能和在医学中的潜在应用，由于需求不断增长，因此需要寻找新颖且合适的生产工具。植物多样性的探索可用于各种NP的快速和一步制备方法，与传统方法相比，保持绿色原理是医学应用的重要方面。植物中含有生物有机成分，通常起着还原，金属化合物的封端剂和稳定剂，形成银纳米颗粒（AgNPs）。这些NP的稳定性受某些参数控制，这些参数会影响稳定性和生物利用度。从这个角度出发，本综述旨在提供全面的观点，以了解生物启发性合成AgNPs的可能的诱导机制，当前情景和未来前景。