钛的光功能化：其化学物理机制的另一种解释

Photofunctionalization of Titanium: An Alternative Explanation of Its Chemical-Physical Mechanism.

作者信息

Roy Marco, Pompella Alfonso, Kubacki Jerzy, Szade Jacek, Roy Robert A, Hedzelek Wieslaw

机构信息

Prosthodontic Department, Poznan University of Medical Science, Poznan, Poland.

Department of Translational Research and New Technologies in Medicine and Surgery, University of Pisa Medical School, Pisa, Italy.

出版信息

PLoS One. 2016 Jun 16;11(6):e0157481. doi: 10.1371/journal.pone.0157481. eCollection 2016.

DOI:10.1371/journal.pone.0157481

PMID:27309723

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4911147/

Abstract

OBJECTIVES

To demonstrate that titanium implant surfaces as little as 4 weeks from production are contaminated by atmospheric hydrocarbons. This phenomenon, also known as biological ageing can be reversed by UVC irradiation technically known as photofunctionalization. To propose a new model from our experimental evidence to explain how the changes in chemical structure of the surface will affect the adsorption of amino acids on the titanium surface enhancing osteointegration.

METHODS

In our study XPS and AES were used to analyze the effects of UVC irradiation (photofunctionalization) in reversing biological ageing of titanium. SEM was used to analyze any possible effects on the topography of the surface.

RESULTS

UVC irradiation was able to reverse biological ageing of titanium by greatly reducing the amount of carbon contamination present on the implant surface by up to 4 times, while the topography of the surface was not affected. UVC photon energy reduces surface H2O and increases TiOH with many -OH groups being produced. These groups explain the super-hydrophilic effect from photofunctionalization when these groups come into contact with water.

SIGNIFICANCE

Photofunctionalization has proven to be a valid method to reduce the amount of hydrocarbon contamination on titanium dental implants and improve biological results. The chemisorption mechanisms of amino acids, in our study, are dictated by the chemical structure and electric state present on the surface, but only in the presence of an also favourable geometrical composition at the atomical level.

摘要

目的

证明生产仅4周的钛种植体表面会被大气碳氢化合物污染。这种现象，也被称为生物老化，可通过技术上称为光功能化的紫外线照射来逆转。根据我们的实验证据提出一个新模型，以解释表面化学结构的变化将如何影响钛表面氨基酸的吸附，从而增强骨整合。

方法

在我们的研究中，使用X射线光电子能谱（XPS）和俄歇电子能谱（AES）来分析紫外线照射（光功能化）对逆转钛生物老化的影响。使用扫描电子显微镜（SEM）分析对表面形貌的任何可能影响。

结果

紫外线照射能够通过将种植体表面存在的碳污染量大幅减少多达4倍来逆转钛的生物老化，而表面形貌不受影响。紫外线光子能量减少表面的H2O并增加TiOH，产生许多-OH基团。当这些基团与水接触时，这些基团解释了光功能化产生的超亲水性效应。

意义

光功能化已被证明是一种有效的方法，可减少钛牙种植体上的碳氢化合物污染量并改善生物学效果。在我们的研究中，氨基酸的化学吸附机制取决于表面存在的化学结构和电状态，但前提是在原子水平上也存在有利的几何组成。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4799/4911147/53287442a300/pone.0157481.g001.jpg

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钛的光功能化：其化学物理机制的另一种解释

Photofunctionalization of Titanium: An Alternative Explanation of Its Chemical-Physical Mechanism.

作者信息

机构信息

出版信息

OBJECTIVES

METHODS

RESULTS

SIGNIFICANCE

目的

方法

结果

意义

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