基于 Z 型异质结构的缺氧肿瘤治疗中的时空同步氧自供应和活性氧物种生成。

Spatiotemporally Synchronous Oxygen Self-Supply and Reactive Oxygen Species Production on Z-Scheme Heterostructures for Hypoxic Tumor Therapy.

机构信息

Laboratory of Chemical Biology, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, Changchun, 130022, Jilin, China.

College of Chemistry and Chemical Engineering, Jiangxi Normal University, Nanchang, 330000, Jiangxi, China.

出版信息

Adv Mater. 2020 Mar;32(11):e1908109. doi: 10.1002/adma.201908109. Epub 2020 Feb 5.

DOI:10.1002/adma.201908109

PMID:32022983

Abstract

Photodynamic therapy (PDT) efficacy has been severely limited by oxygen (O ) deficiency in tumors and the electron-hole separation inefficiency in photosensitizers, especially the long-range diffusion of O toward photosensitizers during the PDT process. Herein, novel bismuth sulfide (Bi S )@bismuth (Bi) Z-scheme heterostructured nanorods (NRs) are designed to realize the spatiotemporally synchronous O self-supply and production of reactive oxygen species for hypoxic tumor therapy. Both narrow-bandgap Bi S and Bi components can be excited by a near-infrared laser to generate abundant electrons and holes. The Z-scheme heterostructure endows Bi S @Bi NRs with an efficient electron-hole separation ability and potent redox potentials, where the hole on the valence band of Bi S can react with water to supply O for the electron on the conduction band of Bi to produce reactive oxygen species. The Bi S @Bi NRs overcome the major obstacles of conventional photosensitizers during the PDT process and exhibit a promising phototherapeutic effect, supplying a new strategy for hypoxic tumor elimination.

摘要

光动力疗法 (PDT) 的疗效受到肿瘤中氧气 (O ) 缺乏和光敏剂中电子-空穴分离效率低下的严重限制，特别是在 PDT 过程中 O 向光敏剂的长程扩散。在此，设计了新型的硫化铋 (Bi S )@铋 (Bi) Z 型异质结纳米棒 (NRs)，以实现缺氧肿瘤治疗中时空同步的 O 自供给和活性氧的产生。窄带隙的 Bi S 和 Bi 组分都可以被近红外激光激发，从而产生丰富的电子和空穴。Z 型异质结赋予了 Bi S@Bi NRs 高效的电子-空穴分离能力和强大的氧化还原电势，其中 Bi S 价带上的空穴可以与水反应，为 Bi 导带上的电子提供 O 以产生活性氧。Bi S@Bi NRs 克服了传统光敏剂在 PDT 过程中的主要障碍，表现出有前景的光疗效果，为缺氧肿瘤的消除提供了一种新策略。

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基于 Z 型异质结构的缺氧肿瘤治疗中的时空同步氧自供应和活性氧物种生成。

Spatiotemporally Synchronous Oxygen Self-Supply and Reactive Oxygen Species Production on Z-Scheme Heterostructures for Hypoxic Tumor Therapy.

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