The aim is to explore how phyto-functional nanomaterials can advance sustainable practices in various fields such as energy and biomedicine.
Synthesis techniques for phyto-functional nanomaterials have been reviewed.
Characterization methods of nanomaterials are discussed to assess their properties.
Applications in energy, environmental protection, and biomedical fields are analyzed.
Nanomaterials demonstrate enhanced performance in energy storage and conversion applications.
Phytochemical applications improve the sustainability and efficacy of nanomaterials in environmental protection.
Biomedical applications of these nanomaterials indicate potential benefits in drug delivery and therapeutic interventions.
Abstract
While the transition toward sustainable technologies in energy, environmental protection, and biomedicine has brought nanomaterials to the center of contemporary materials research ...