Performance of Metallic-Based Nanomaterials Doped with Strontium in Biomedical and Supercapacitor Electrodes: A Review

Abstract

Metallic-based nanomaterials have had their characteristics significantly enhanced by the incorporation of traces of strontium nanoparticles (NPs) into their matrix. These elements considerably improve the mechanical and biological response properties, as well as the tenacity, durability, and drug release. They are utilized in chemosensors, electronics, medication delivery, cancer treatment, bone engineering, environmental management, bioimaging, and drug delivery. We are particularly interested in the biological and supercapacitor electrode applications of strontium-based nanoparticles. Numerous studies have examined the performance of various metallic NPs doped with strontium in supercapacitor and biological applications. According to their research, strontium-doped versions of these materials exhibit better biomedical and heightened supercapacitor electrode performance as compared to bare metallic NPs. As a result, this work investigated the development of strontium-based nanoparticles in biomedical applications, with a focus on their importance in bone regeneration, effective immunotherapy, the management of bacterial infections, medicine delivery, and dentistry. The potential applications of strontium-doped metal NPs for making electrodes in supercapacitors were also discussed in the context of electronics.