光热治疗
材料科学
光热效应
纳米材料
剥脱关节
纳米技术
化学工程
石墨烯
纳米颗粒
透射电子显微镜
超声
X射线光电子能谱
光电子学
带隙
色散(光学)
动态光散射
发光二极管
光谱学
可见光谱
覆盖层
激子
分散稳定性
纳米晶
作者
Hui‐Ping Chang,Filipa A. L. S. Silva,Elizabeth Nance,José R. Fernandes,Susana G. Santos,Fernão D. Magalhães,Artur M. Pinto,Jean Anne C. Incorvia
出处
期刊:ACS Nano
[American Chemical Society]
日期:2025-09-16
卷期号:19 (38): 33749-33763
被引量:1
标识
DOI:10.1021/acsnano.5c03135
摘要
Near-infrared (NIR) photothermal therapy (PTT) using nanomaterials is a promising strategy for selective cancer treatment. We report two tin-based two-dimensional (2D) nanoflakes─defective SnS2 (SnS2-x) and mixed-phase SnOx─synthesized via top-down ultrasonication and electrochemical exfoliation with oxidation, respectively. Both nanoflakes have thicknesses below 20 nm, and their lateral sizes (<400 nm) were confirmed by AFM, DLS, atomic force microscopy, dynamic light scattering, and transmission electron microscopy (TEM). Despite a similar optical band gap (∼1.89 eV), SnO2 nanoflakes display a significantly enhanced NIR photothermal performance under 810 nm light emitting diode (LED) irradiation. A 3 mg/mL SnOx dispersion increases in temperature by ∼19 °C after 30 min, and a 0.25 mg/mL sample achieves a photothermal conversion efficiency of 93%. X-ray photoelectron spectroscopy and TEM analyses show that SnOx consists of interconnected SnO and SnO2 nanocrystals (<5 nm), which promote nonradiative energy release due to exciton confinement effects, unlike the planar SnS2-x nanoflakes that show negligible heating. In vitro studies demonstrate selective cytotoxicity: SnOx combined with NIR light (100-200 μg/mL, 30 min, 115.2 mW/cm2) reduces viability in SW837 colorectal (-50%) and A431 skin carcinoma cells (-92%), with no cytotoxicity toward human skin fibroblasts. Importantly, the SnOx nanoflakes retain both their photothermal efficiency and structural integrity after four cycles of NIR irradiation, demonstrating stability for repeated therapeutic applications. This work presents a green and scalable method to convert NIR-inactive SnS2 into photothermally active SnOx nanoflakes using only aqueous media and validates SnOx as an efficient, biocompatible PTT agent using low-cost LED sources.
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