基于 1T 相二响应超薄二碲化铌纳米片的递药系统，用于增强化学-光热治疗。

Dual-responsive ultrathin 1T-phase niobium telluride nanosheet-based delivery systems for enhanced chemo-photothermal therapy.

机构信息

Guangdong Provincial Key Laboratory of Laser Life Science, College of Biophotonics, South China Normal University, Guangzhou 510631, P. R. China.

Department of Haematology, The Seventh Hospital of Sun Yat-sen University, Key Laboratory of Sensing Technology and Biomedical Instrument of Guangdong Province, School of Biomedical Engineering, Sun Yat-sen University, Guangzhou, 510006, China.

出版信息

J Mater Chem B. 2021 Oct 6;9(38):8109-8120. doi: 10.1039/d1tb01469b.

DOI:10.1039/d1tb01469b

PMID:34494067

Abstract

1T-phase niobium telluride (NbTe) nanosheets are becoming increasingly important in emerging fields, such as spintronics, sensors and magneto-optoelectronics, due to their excellent physical and chemical properties. However, exploration on their biomedical applications are limited. Herein, ultrathin 1T-phase NbTe single-crystalline nanosheets with excellent photothermal performance, high drug-loading rate, near-infrared (NIR) light/acidic pH-triggered drug release, and low toxicity were developed for potentiated photothermal therapy. Importantly, they showed excellent biocompatibility and . NbTe nanosheets loaded with integrated stress response inhibitors (ISRIB) could achieve chemo-photothermal therapy of tumors through the ATF4-ASNS signaling axis. Ultrathin 1T-phase NbTe single-crystalline nanosheets with unique photothermal properties, drug loading rate and safety provide dramatic possibilities in biomedical applications, such as tissue imaging, photothermal therapeutics and pharmaceutics.

摘要

1T 相二碲化铌（NbTe）纳米片由于其优异的物理和化学性质，在自旋电子学、传感器和磁光电子学等新兴领域变得越来越重要。然而，它们在生物医学应用方面的探索有限。在此，开发了具有优异光热性能、高载药率、近红外（NIR）光/酸性 pH 触发药物释放和低毒性的超薄 1T 相 NbTe 单晶纳米片，用于增强光热治疗。重要的是，它们表现出优异的生物相容性和。负载整合应激反应抑制剂（ISRIB）的 NbTe 纳米片可以通过 ATF4-ASNS 信号轴实现肿瘤的化学-光热治疗。具有独特光热性能、载药率和安全性的超薄 1T 相 NbTe 单晶纳米片为生物医学应用提供了巨大的可能性，如组织成像、光热治疗和药物学。

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基于 1T 相二响应超薄二碲化铌纳米片的递药系统，用于增强化学-光热治疗。

Dual-responsive ultrathin 1T-phase niobium telluride nanosheet-based delivery systems for enhanced chemo-photothermal therapy.

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