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具有高活性1d纳米孔的可降解孔的palladium纳米片用于低毒瘤的协同光疗

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具有高活性1d纳米孔的可降解孔的palladium纳米片用于低毒瘤的协同光疗

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One Minute, Sub-One-Watt Photothermal Tumor Ablation Using Porphysomes, Intrinsic Multifunctional Nanovesicles

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Published on: September 17, 2013

具有高活性1D纳米孔的可降解孔的Palladium纳米片用于低毒瘤的协同光疗

Shanshan Li¹, Kai Gu¹, Hui Wang²

¹Beijing Advanced Innovation Center for Soft Matter Science and Engineering, State Key Laboratory of Organic-Inorganic Composites, Bionanomaterials & Translational Engineering Laboratory, Beijing Key Laboratory of Bioprocess, Beijing Laboratory of Biomedical Materials, Beijing University of Chemical Technology, Beijing 100029, P.R. China.

Journal of the American Chemical Society

|March 3, 2020

在PubMed 上查看摘要

概括

此摘要是机器生成的。

研究人员开发了空洞的纳米片 (H-Pd NSs) 用于癌症治疗. 这些新型纳米材料结合了光热和光动力学特性,在研究中达到99.7%的瘤抑制率.

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科学领域:

材料科学
纳米技术
生物医学工程

背景情况:

纳米板 (Pd NSs) 在光热治疗中显示出潜力.
Pd NS 的光动力学特性在很大程度上是未被探索的.
开发用于癌症治疗的新型纳米材料至关重要.

研究的目的:

制造具有内在光动力学和低氧性能力的空洞纳米板 (H-Pd NS).
研究H-Pd NSs在成像导向的低氧瘤治疗中的应用.
探索可生物降解的贵金属纳米激光剂的设计.

主要方法:

具有活性 (100) 面的H-Pd NSs的无氧化蚀刻策略.
在模拟生理介质中研究H-Pd NS的逐渐降解.
在体外和体内评估H-Pd NS作为光热/光动力学剂.

主要成果:

用一维纳米孔和活跃 (100) 面成功制造了H-Pd NS.
在模拟生理条件下,H-Pd NSs逐渐降解.
在成像指导的低氧瘤治疗中,H-PdNS的瘤抑制率高达99. 7%.

结论:

H-Pd NS具有内在的光动力学和低氧性能力.
可生物降解的H-Pd NS是光热/光动力疗法的有效单元剂.
这项工作为设计用于癌症治疗的金属纳米激光剂提供了洞察力.