This article explores an in-depth analysis of eco-friendly green synthesis methods to manufacture zinc oxide nanoparticles(ZnO NPs).Although chemical and/or physical approaches may initially provide better results;in ...This article explores an in-depth analysis of eco-friendly green synthesis methods to manufacture zinc oxide nanoparticles(ZnO NPs).Although chemical and/or physical approaches may initially provide better results;in the long term;a biological approach using green or natural pathways using plant extracts;enzymes;and mi-crobes may be eco-friendly and more cost-effective.This review addresses various green synthesis techniques and their potential biomedical applications;elucidating their mechanisms.Additionally;the article highlights the pivotal role of ZnO NPs in diabetes;cancer;wound healing;drug delivery;and other biomedical marvels.Overall;it highlights the importance of green-synthesized ZnO NPs in building a future of sustainable biomedical breakthroughs.展开更多
文摘This article explores an in-depth analysis of eco-friendly green synthesis methods to manufacture zinc oxide nanoparticles(ZnO NPs).Although chemical and/or physical approaches may initially provide better results;in the long term;a biological approach using green or natural pathways using plant extracts;enzymes;and mi-crobes may be eco-friendly and more cost-effective.This review addresses various green synthesis techniques and their potential biomedical applications;elucidating their mechanisms.Additionally;the article highlights the pivotal role of ZnO NPs in diabetes;cancer;wound healing;drug delivery;and other biomedical marvels.Overall;it highlights the importance of green-synthesized ZnO NPs in building a future of sustainable biomedical breakthroughs.
