Fe3O4@Au@mSiO(2) as an enhancing nanoplatform for Rose Bengal photodynamic activity

Rosa-Pardo I.; Roig-Pons M.; Heredia A. A.Usagre J. V.Ribera A.Galian R. E.Perez-Prieto J.

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Fe3O4@Au@mSiO(2) as an enhancing nanoplatform for Rose Bengal photodynamic activity

机译：作为加强nanoplatform Fe3O4@Au@mSiO (2)玫瑰红光动力活性

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A novel nanoplatform composed of three types of materials with different functionalities, specifically core-shell Fe3O4@Au nanoparticles encapsulated near the outer surface of mesoporous silica (mSiO(2)) nanoparticles, has been successfully synthesised and used to enhance the efficiency of a photosensitiser, namely Rose Bengal, in singlet oxygen generation. Fe3O4 is responsible for the unusual location of the Fe3O4@Au nanoparticle, while the plasmonic shell acts as an optical antenna. In addition, the mesoporous silica matrix firmly encapsulates Rose Bengal by chemical bonding inside the pores, thus guaranteeing its photostability, and in turn making the nanosystem biocompatible. Moreover, the silica surface of the nanoplatform ensures further functionalisation on demand.

机译：小说nanoplatform由三种类型的与不同的功能材料,尤其是核壳Fe3O4@Au纳米颗粒介孔的外表面附近的封装硅(mSiO(2)纳米颗粒成功合成,用于增强photosensitiser效率,即上升孟加拉,单线态氧的一代。负责的不寻常的位置Fe3O4@Au纳米颗粒,而电浆壳作为光学天线。介孔二氧化硅矩阵坚定地封装了玫瑰孟加拉的化学键在毛孔内,因此保证它的耐光性,综合生物相容性。的二氧化硅表面nanoplatform确保进一步functionalisation需求。

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来源
《Nanoscale》 |2017年第29期|10388-10396|共9页
作者
Rosa-Pardo I.; Roig-Pons M.; Heredia A. A.Usagre J. V.Ribera A.Galian R. E.Perez-Prieto J.;
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作者单位

Univ Valencia, ICMOL, Catedrat Jose Beltran 2, Valencia 46980, Spain;

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原文格式 PDF
正文语种英语
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关键词
optical antenna; Nanoparticles; Rose Bengaltype materialphotostabilitymesoporous materialschemical bondingouter surface;

机译：光学天线;纳米粒子;Bengaltype上升materialphotostabilitymesoporousmaterialschemical bondingouter表面;

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Fe3O4@Au@mSiO(2) as an enhancing nanoplatform for Rose Bengal photodynamic activity

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