This review focused on the utilization of nanoscale metals such as Ag and Cu, which are considerable throughout a range of industries spanning environmental, medical, and engineering sectors, making the synthesis of these nanomaterials a pertinent subject. Currently, green chemical and biological strategies are predominantly employed for the synthesis of nanoscale metals; however, these strategies come with unintended disadvantages such as environmental contamination, excessive power consumption, and achievable fitness hazards. In addressing these challenges, inexperienced synthesis has emerged as a promising alternative, making use of plant extracts instead of physical and industrial chemical dealers to limit metal ions
Faiad Mohammad,H . (2025). Sustainable Biogenic Fabrication of Nanoparticle Synthesis Methods via Medicinal Plants Extract: Approaches and Review. Al-Kunooze Scientific Journal, 11(4), 143-157.
MLA
Faiad Mohammad,H . "Sustainable Biogenic Fabrication of Nanoparticle Synthesis Methods via Medicinal Plants Extract: Approaches and Review", Al-Kunooze Scientific Journal, 11, 4, 2025, 143-157.
HARVARD
Faiad Mohammad H. (2025). 'Sustainable Biogenic Fabrication of Nanoparticle Synthesis Methods via Medicinal Plants Extract: Approaches and Review', Al-Kunooze Scientific Journal, 11(4), pp. 143-157.
CHICAGO
H Faiad Mohammad, "Sustainable Biogenic Fabrication of Nanoparticle Synthesis Methods via Medicinal Plants Extract: Approaches and Review," Al-Kunooze Scientific Journal, 11 4 (2025): 143-157,
VANCOUVER
Faiad Mohammad H. Sustainable Biogenic Fabrication of Nanoparticle Synthesis Methods via Medicinal Plants Extract: Approaches and Review. KSJ. 2025;11(4):143-157.