Mo-doped titanate nanofibers from hydrothermal syntheses for improving bone scaffold

Characterization and Application of Nanomaterials Pub Date : 2024-01-18 DOI:10.24294/can.v7i1.3587

Yang Tian, Lu Zhang, Yiting Xiao, Trenton Collins, Abdussamad Akhter, Yan Huang, Z. R. Tian, Ryan Tian

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Abstract

A longstanding interest in bone tissue engineering is the development of new bio-scaffolds that can be manufactured on a large scale with high throughput at low cost. Here, we report a low-cost and systematically optimized hydrothermal synthesis for producing Mo-doped potassium titanate nanofibers with high structural purity. This new nanosynthesis is based on bone tissue growth on an undoped titanate nanowires-entangled scaffold, as previously reported by our team. The morphological and structural characterization data suggest that the crystal structure of Mo-doped titanate nanofibers closely resembles that of the undoped ones. This resemblance is potentially valuable for assessing the role of Mo dopants in engineering bone tissue.TRANSLATE with x EnglishArabicHebrewPolishBulgarianHindiPortugueseCatalanHmong DawRomanianChinese SimplifiedHungarianRussianChinese TraditionalIndonesianSlovakCzechItalianSlovenianDanishJapaneseSpanishDutchKlingonSwedishEnglishKoreanThaiEstonianLatvianTurkishFinnishLithuanianUkrainianFrenchMalayUrduGermanMalteseVietnameseGreekNorwegianWelshHaitian CreolePersian // TRANSLATE with COPY THE URL BELOW Back EMBED THE SNIPPET BELOW IN YOUR SITE Enable collaborative features and customize widget: Bing Webmaster PortalBack//

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用于改善骨支架的水热合成掺钼钛酸酯纳米纤维

骨组织工程学的一个长期关注点是开发可大规模、高产能、低成本制造的新型生物支架。在此，我们报告了一种低成本、系统优化的水热合成法，用于生产具有高结构纯度的掺钼钛酸钾纳米纤维。这种新的纳米合成方法基于我们团队之前报道的未掺杂钛酸钾纳米线缠结支架上的骨组织生长。形态和结构表征数据表明，掺钼钛酸酯纳米纤维的晶体结构与未掺钼钛酸酯纳米纤维的晶体结构非常相似。这种相似性对于评估掺杂钼元素在骨组织工程中的作用具有潜在价值。用 x 翻译英语阿拉伯语希伯来语波兰语保加利亚语印地语葡萄牙语加泰罗尼亚语苗语罗马尼亚语中文简体匈牙利语俄语中文繁体中文印度尼西亚语斯洛伐克语捷克语意大利语斯洛文尼亚语丹麦语日本语西班牙语荷兰语克林贡语瑞典语英语韩国语泰国语爱沙尼亚语拉脱维亚语土耳其语芬兰语立陶宛语乌克兰语法语马来语乌尔都语德语马耳他语越南语希腊语挪威语威尔士语海地语克里奥尔语波斯语 // 复制下面的 URL 进行翻译返回将下面的片段粘贴到您的网站启用协作功能并自定义 widget：必应网站管理员门户返回//

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Characterization and Application of Nanomaterials

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