Executive Summary : | surgical Grade stainless steel is a popular implant substance for bone fracture repair, hip and knee prostheses, and dental implants. One of the bioactive ceramic materials used for successful coating on metallic implants is calcium silicate. In the dissolution behaviour of calcium silicate for biological applications, ion substitution is a limiting element. In this way, our proposed proposal is intended to assess the effect of [(Iron-Rare transition co-doped) (Fe3+ or Gd3+ or Eu3+ or Yb3+)] The effects of ion substitution on the physical, chemical, structural, hyperthermia, MRI, and CT contrast agents biological, and antibacterial characteristics of calcium silicate, as well as the dissolution behaviour of calcium silicate. Iron has hyperthermia-resistant magnetization characteristics. Due to electronic transitions within the 4f shell or from the 4f-5d shell, rare transition metals have unique and intriguing optical properties that could be investigated in MRI or optical imaging as well as CT contrast agents. Iron-Rare transition co-substituted, with medicinal and diagnostic properties. An organic or inorganic hybrid composite composed of calcium silicate ceramic and chitosan has been suggested for electrophoretic deposition on surgical-grade stainless steel implants to achieve corrosion resistance and faster bone regeneration properties. The outline of the plan is shown in the diagram below. |