Researchers have risen to envisage a great deal of potential of nanocomposites (NCs) and foresee a wide range of applications of ternary NCs (TNCs) in particular. The hybrid nanostructures with synergistic impact of metal, metal oxide, carbon containing and polymer nanoparticles (NPs) dispersed on RGO nanosheets, obtained from the convenient protocols (efficient, economical and eco-friendly - E3 approach) along with nontoxic nature have led to a wide range of benefits. Owing to their enormous applications, it is pertinent to review all remedial, sensing, biomedical, energy storage and conversion abilities for traversing furthermore and motivating future researchers. Their consolidated study majorly validates the gigantic role in safeguarding the environment along with their comprehensive efficiency in a spectrum of energy storage and conversion. Moreover, their utilization in sensors also makes them research targets for biomedical scientists exploring clinical investigations. Their significance ensures to construct a link between academic research and environmental sustainability.

研究人员已经开始设想纳米复合材料 (NC) 的巨大潜力，特别是预见了三元 NC (TNC) 的广泛应用。混合纳米结构具有分散在 RGO 纳米片上的金属、金属氧化物、含碳和聚合物纳米粒子 (NPs) 的协同影响，从方便的协议（高效、经济和环保 - E3 方法）以及无毒性质中获得。广泛的好处。由于它们的巨大应用，有必要回顾所有的治疗、传感、生物医学、能量存储和转换能力，以进一步遍历和激励未来的研究人员。他们的综合研究主要验证了它们在保护环境方面的巨大作用以及它们在一系列能量存储和转换中的综合效率。此外，它们在传感器中的应用也使它们成为探索临床研究的生物医学科学家的研究目标。它们的重要性确保在学术研究和环境可持续性之间建立联系。