基于氧碘化铋纳米粒子的光动力疗法用于无损牙齿美白。

IF 5.4 2区医学 Q1 BIOPHYSICS

Colloids and Surfaces B: Biointerfaces Pub Date : 2024-07-30 DOI:10.1016/j.colsurfb.2024.114133

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引用次数: 0

摘要

在不使用过氧化物和不损害牙釉质完整性的情况下，通过短时间治疗达到理想的美白效果仍然是牙齿美白领域的一项挑战。在此，我们开发了一种基于可见光激活的氧碘化铋纳米粒子的高度安全、高效的光动力疗法（PDT）策略，用于无损牙齿美白。Bi7O9I3 纳米粒子（NPs）因其窄带隙而表现出高效的光催化活性，能有效利用宽光谱的可见光产生充足的电子和空穴。同时，氧空位、低氧化态 Bi3+ 和高比表面积的存在赋予了 Bi7O9I3 NPs 有效的电子-空穴分离能力和强大的氧化还原电位。利用这些特性，Bi7O9I3 NPs 能有效地将 O2 催化成自由基（O2--），促进牙齿表面色素分子的降解，从而达到牙齿美白的目的。同时，它们还能消灭附着在牙齿表面的口腔细菌和细菌生物膜，从而对牙齿美白的效果产生积极影响。这种使用 Bi7O9I3 NPs 的光导治疗策略在牙齿美白方面具有广阔的应用前景。

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Photodynamic therapy based on bismuth oxyiodide nanoparticles for nondestructive tooth whitening

Achieving a desired whitening effect through short treatments without using peroxide and without compromising the integrity of tooth enamel remains a challenge in teeth whitening. Here, we developed a highly safe and efficient photodynamic therapy (PDT) strategy based on visible light-activated bismuth oxyiodide nanoparticles for nondestructive tooth whitening. The Bi₇O₉I₃ nanoparticles (NPs) exhibited efficient photocatalytic activity owing to their narrow band gap, effectively harnessing the broad spectrum of visible light to generate ample electrons and holes. Meanwhile, the presence of oxygen vacancies, low oxidation state Bi³⁺ and the high specific surface area endow Bi₇O₉I₃ NPs with effective electron-hole separation ability and potent redox potentials. Empowered by these characteristics, Bi₇O₉I₃ NPs effectively catalyzed O₂ into radicals (O₂^•-), facilitating the degradation of dental surface pigment molecules for tooth whitening. Concurrently, they eradicated oral bacteria and bacterial biofilms adhering to tooth surfaces, thereby having a positive effect on the effectiveness of tooth whitening. This PDT strategy with Bi₇O₉I₃ NPs shows broad application prospects in tooth whitening.

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来源期刊

Colloids and Surfaces B: Biointerfaces 生物-材料科学：生物材料

CiteScore

11.10

自引率

3.40%

发文量

730

审稿时长

42 days

期刊介绍： Colloids and Surfaces B: Biointerfaces is an international journal devoted to fundamental and applied research on colloid and interfacial phenomena in relation to systems of biological origin, having particular relevance to the medical, pharmaceutical, biotechnological, food and cosmetic fields. Submissions that: (1) deal solely with biological phenomena and do not describe the physico-chemical or colloid-chemical background and/or mechanism of the phenomena, and (2) deal solely with colloid/interfacial phenomena and do not have appropriate biological content or relevance, are outside the scope of the journal and will not be considered for publication. The journal publishes regular research papers, reviews, short communications and invited perspective articles, called BioInterface Perspectives. The BioInterface Perspective provide researchers the opportunity to review their own work, as well as provide insight into the work of others that inspired and influenced the author. Regular articles should have a maximum total length of 6,000 words. In addition, a (combined) maximum of 8 normal-sized figures and/or tables is allowed (so for instance 3 tables and 5 figures). For multiple-panel figures each set of two panels equates to one figure. Short communications should not exceed half of the above. It is required to give on the article cover page a short statistical summary of the article listing the total number of words and tables/figures.