Interfacial Reaction-Driven Formation of Silica Carbonate Biomorphs with Subcellular Topographical Features and Their Biological Activity

Wang Guocheng; Zhao Xiaobing; Moeller Marco; Moya Sergio E.

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Interfacial Reaction-Driven Formation of Silica Carbonate Biomorphs with Subcellular Topographical Features and Their Biological Activity

机译：具有亚细胞形貌特征的碳酸硅酸盐生物形态的界面反应驱动形成及其生物活性

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We report the interfacial reaction-driven formation of microanostructured strontium carbonate (SrCO3) biomorphs with subcellular topographical features on strontium zinc silicate (Sr2ZnSi2O7) biomedical coatings and explore their potential use in bone tissue engineering. The resulting SrCO(3)crystals build a well-integrated scaffold surface that not only prevents burst release of ions from the coating but also presents nanotopographical features similar to cellular filopodia. The surface with biomorphic crystals enhances osteoblast adhesion, upregulates the alkaline phosphatase activity, and increases collagen production, highlighting the potential of the silica carbonate biomorphs for tissue regeneration.

机译：我们报告了在硅酸锶锌（Sr2ZnSi2O7）生物医学涂层上具有亚细胞形貌特征的微/纳米结构碳酸锶（SrCO3）生物形态的界面反应驱动形成，并探讨了它们在骨组织工程中的潜在用途。所得的SrCO（3）晶体建立了一个良好整合的支架表面，不仅可以防止离子从涂层中突然释放出来，而且还具有类似于细胞丝状伪足的纳米形貌特征。具有生物形态晶体的表面增强了成骨细胞的粘附力，上调了碱性磷酸酶的活性，并增加了胶原蛋白的产生，突出了碳酸二氧化硅生物形态在组织再生中的潜力。

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《ACS applied materials & interfaces》 |2015年第42期|共6页
作者
Wang Guocheng; Zhao Xiaobing; Moeller Marco; Moya Sergio E.;
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正文语种 eng
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silica biomorph; strontium carbonate; reactivity; osteoblast; bone regeneration;

机译：二氧化硅生物形态;碳酸锶;反应性;成骨细胞;骨再生;

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1. Interfacial Reaction-Driven Formation of Silica Carbonate Biomorphs with Subcellular Topographical Features and Their Biological Activity [J] . Wang Guocheng, Zhao Xiaobing, Moeller Marco, ACS applied materials & interfaces . 2015,第42期

机译：具有亚细胞形貌特征的碳酸硅酸盐生物形态的界面反应驱动形成及其生物活性
2. Formation of Crystalline Silica-Carbonate Biomorphs of Alkaline Earth Metals (Ca, Ba, Sr) from Ambient to Low Temperatures: Chemical Implications during the Primitive Earth's Life [J] . Nature reviews Cancer . 2020,第2期

机译：将碱土金属（CA，Ba，Sr）的结晶二氧化硅碳酸盐生物晶体从环境中与低温形成：在原始地球生命中的化学意义
3. Formation of Crystalline Silica-Carbonate Biomorphs of Alkaline Earth Metals (Ca, Ba, Sr) from Ambient to Low Temperatures: Chemical Implications during the Primitive Earth's Life [J] . Cuellar-Cruz Mayra, Schneider Dieter K., Stojanoff Vivian, Crystal growth & design . 2020,第2期

机译：从环境温度到低温的碱土金属（CA，BA，SR）的结晶二氧化硅 - 碳酸盐生物晶体：在原始地球生命中的化学意义
4. (Invited) Quantifying Outgassing, Surface Oxygen Depletion and Solid Carbonate Evolution to Understand Interfacial Reactivity in Cathode Active Materials [C] . Bryan D. McCloskey, Srinivasan Ramakrishnan, Sara E Renfrew Pacific Rim Meeting on Electrochemical and Solid-State Science . 2020

机译：（邀请）定量除气，表面氧耗尽和固体碳酸盐的进化，以了解阴极活性材料中的界面反应性
5. High strain-rate deformation as an impact process: Ordinary chondrite and carbonate-silicate frictional melting experiments and their comparison with naturally deformed materials. [D] . van der Bogert, Carolyn Howes. 2004

机译：高应变率变形作为冲击过程：普通球粒陨石和碳酸盐-硅酸盐的摩擦熔融实验及其与自然变形材料的比较。
6. Silica Aerogel-supported Hydrozincite and Carbonate-intercalated Hydrotalcite for High-efficiency Removal of Pb(II) Ions by Precipitation Transformation Reactions [O] . Lijun Wang, Xiaoxia Wang, Jianfa Li, 2017

机译：二氧化硅气凝胶负载的水锌矿和碳酸盐插层的水滑石通过沉淀转化反应高效去除Pb（II）离子
7. Synthesis of Crystalline Silica–Carbonate Biomorphs of Ba(II) under the Presence of RNA and Positively and Negatively Charged ITO Electrodes: Obtainment of Graphite via Bioreduction of CO2 and Its Implications to the Chemical Origin of Life on Primitive Earth [O] . Mayra Cuéllar-Cruz, Abel Moreno 2020

机译：基于RNA的存在和带负电荷ITO电极的BA（II）结晶二氧化硅碳酸盐生物晶体的合成：通过CO 2的生物测定获得石墨及其对原始地球生命的影响
8. A Biological and Geological Reconnaissance of Selected Topographical Features on the Texas Continental Shelf [R] . 1976

机译：德克萨斯大陆架选定地形特征的生物和地质勘察

Interfacial Reaction-Driven Formation of Silica Carbonate Biomorphs with Subcellular Topographical Features and Their Biological Activity

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