Tian, Y.; Cole, P.; Xiao, Y.; Akhter, A.; Collins, T.; Zhang, L.; Huang, Y.; Tian, Z.R. Hydrothermally Doping Valve Metal Nb into Titanate Nanofibers Structure for Potentially Engineering Bone Tissue. Nano and Medical Materials 2024, 3, 375, doi:10.59400/nmm.v3i2.375.
Tian, Y.; Cole, P.; Xiao, Y.; Akhter, A.; Collins, T.; Zhang, L.; Huang, Y.; Tian, Z.R. Hydrothermally Doping Valve Metal Nb into Titanate Nanofibers Structure for Potentially Engineering Bone Tissue. Nano and Medical Materials 2024, 3, 375, doi:10.59400/nmm.v3i2.375.
Tian, Y.; Cole, P.; Xiao, Y.; Akhter, A.; Collins, T.; Zhang, L.; Huang, Y.; Tian, Z.R. Hydrothermally Doping Valve Metal Nb into Titanate Nanofibers Structure for Potentially Engineering Bone Tissue. Nano and Medical Materials 2024, 3, 375, doi:10.59400/nmm.v3i2.375.
Tian, Y.; Cole, P.; Xiao, Y.; Akhter, A.; Collins, T.; Zhang, L.; Huang, Y.; Tian, Z.R. Hydrothermally Doping Valve Metal Nb into Titanate Nanofibers Structure for Potentially Engineering Bone Tissue. Nano and Medical Materials 2024, 3, 375, doi:10.59400/nmm.v3i2.375.
Abstract
Recent research efforts in bone tissue engineering have been primarily directed towards manufacture-viable synthesis of biomaterials that can significantly enhance the biocompatibilities and osteogenic capabilities on the new biomaterials. This paper presents a straightforward, cost-effective, optimized, and well-controlled hydrothermal synthesis of Nb-doped potassium titanate nanofibers in high-purity. Characterization data revealed that the Nb-doping potassium titanate maintained the crystal structure, showing great promise for applications in bone tissue engineering.
Keywords
Nanosynthesis; Titanate nanofiber; Bone tissue engineering; Bone scaffold; Niobium dopant; Pro-bone elements
Subject
Chemistry and Materials Science, Biomaterials
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.