Effect of Zn, Ti and Sn dopants on the structural, morphological and optical properties of MgO nanoparticles synthesized via green combustion using Persicaria odorata leaves extract

• Published in: EMERGENT MATERIALS
• Main Authors: Saidi, Nor Syazwanie Mohd; Badar, Nurhanna; Yusoff, Hanis Mohd; Elong, Kelimah
• Format: Article; Early Access
• Language: English
• Published: SPRINGERNATURE 2024
• Subjects: Materials Science
• Online Access: https://www-webofscience-com.uitm.idm.oclc.org/wos/woscc/full-record/WOS:001328524500001
• ISSN: 2522-5731; 2522-574X
• DOI: 10.1007/s42247-024-00871-2

Doping magnesium oxide nanoparticles (MgO-NPs) with metals like Zinc, Tin and Titanium may lead to novel and advanced material that expands their potential applications. The synthesis of MgO-NPs using green approaches provides an alternative to the common methods employed in various industries. The present study is focused on the synthesis of MgO-NPs and their doped materials (MgO0.99Zn0.01-NPs, MgO0.99Ti0.01-NPs and MgO0.99Sn0.01-NPs) via green combustion, using Persicaria odorata leaves extract as a natural reducing agent. FTIR screening indicated the occurrence of combustion, while XRD patterns confirmed the purity of all synthesized nanoparticles. SEM results showed doped variants exhibiting smaller sizes than MgO-NPs, particularly with Mg0.99Sn0.01O-NPs having the smallest average crystallite size followed by Mg0.99Ti0.01O-NPs and Mg0.99Zn0.01O-NPs, respectively. EDX analysis revealed that all of the dopants have been successfully doped into the MgO lattice via substitutional manner. The band gap of doped MgO-NPs has been narrowed compared to MgO-NPs. Subsequently, the optoelectronics properties of the materials can be enhanced.