Hydrothermal synthesis of valve metal Zr-doped titanate nanofibers for bone tissue engineering

Nano and Medical Materials Pub Date : 2023-11-20 DOI:10.59400/nmm.v3i2.249
Parker Cole, Yang Tian, Savannah Thornburgh, Mary Malloy, Lauren Roeder, Micah Maulding, Yan Huang, Z. R. Tian, Ryan Tian
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Abstract

Investigations are underway to identify novel biomaterials to improve strategies for bone tissue engineering. Hybrid nanomaterials have emerged as a viable class of biomaterials. Here, we report a facile, economical, optimized, and well-controlled hydrothermal method for synthesizing Zr-doped potassium titanate nanofibers with high purity. Upon morphological characterization, Zr-doping did not disrupt the parent crystal structure of potassium titanate, which showed huge potential for bone tissue engineering.
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水热合成用于骨组织工程的掺锆钛酸阀金属纳米纤维
目前正在研究新型生物材料,以改进骨组织工程策略。混合纳米材料已成为一类可行的生物材料。在此,我们报告了一种简便、经济、优化和控制良好的水热法,用于合成高纯度的掺锆钛酸钾纳米纤维。从形态特征来看,掺杂锆元素不会破坏钛酸钾的母晶体结构,这为骨组织工程提供了巨大的潜力。
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Nano and Medical Materials
Nano and Medical Materials
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