Redox chemistry-enabled stepwise surface dual nanoparticle engineering of 2D MXenes for tumor-sensitive T1 and T2 MRI-guided photonic breast-cancer hyperthermia in the NIR-II biowindow

Liu Zhuang; Zhao Menglong; Yu LuodanPeng WeijunChen YuZhang Shengjian

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Redox chemistry-enabled stepwise surface dual nanoparticle engineering of 2D MXenes for tumor-sensitive T1 and T2 MRI-guided photonic breast-cancer hyperthermia in the NIR-II biowindow

机译：Redox chemistry-enabled stepwise surface dual nanoparticle engineering of 2D MXenes for tumor-sensitive T1 and T2 MRI-guided photonic breast-cancer hyperthermia in the NIR-II biowindow

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With the fast advent of two-dimensional (2D) MXenes, several therapeutic paradigms based on 2D MXenes flourish, but a generic strategy for MXene functionalization to achieve theranostic functionalities and desirable performance is still lacking. In this work, we report a facile and efficient stepwise surface-functionalization strategy to achieve distinct tumor microenvironment (TME)-responsive T1 and T2 magnetic resonance (MR) imaging-guided photothermal breast-cancer hyperthermia in the second near-infrared (NIR-II) biowindow. This approach is based on the stepwise growth of superparamagnetic Fe3O4 and paramagnetic MnOx nanocomponents onto the large surface of ultrathin 2D niobium carbide (Nb2C) MXene nanosheets (Fe3O4/MnOx–Nb2C) by making full use of the redox status/chemistry of the 2D MXene surface. Such a surface-nanoparticle engineering strategy endows Fe3O4/MnOx–Nb2C composite nanosheets with a series of properties that include high photothermal-conversion efficiency in the NIR-II biowindow (1064 nm, η 30.9%) for effective photothermal tumor eradication without further reoccurrence. It also allows TME-responsive T1- and T2-weighted MR imaging and high biocompatibility for guaranteeing further potential clinical transformation. This work not only makes the efficient diagnostic T1- and T2-weighted MR imaging-guided photonic hyperthermia of breast cancer possible, but also broadens the biomedical applications of MXene-based nanoplatforms by developing novel surface-engineering strategies to construct 2D Nb2C MXene-based composite multifunctional nanoplatforms.

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来源
《Biomaterials Science》 |2022年第6期|1562-1574|共13页
作者
Liu Zhuang; Zhao Menglong; Yu LuodanPeng WeijunChen YuZhang Shengjian;
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Fudan University;

Fudan University and Shanghai Institute of Medical Imaging;

Shanghai University;

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正文语种英语
中图分类分子生物学;
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Redox chemistry-enabled stepwise surface dual nanoparticle engineering of 2D MXenes for tumor-sensitive T1 and T2 MRI-guided photonic breast-cancer hyperthermia in the NIR-II biowindow

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