A Local Water Molecular-heating Strategy for NIR Long-lifetime Imaging-guided Photothermal Therapy of Deep-tissue-bearing Tumor

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Abstract

Abstract 1.0 µm near-infrared (NIR) is considered unsuitable as an imaging and analytical signal in biological environments owing to the strong absorption of water at around the regions. Conversely, the 1.0 µm NIR can be converted to heat and used as a local water-molecular heating strategy for photothermal therapy of biological tissues. Herein, we designed a Nd-Yb co-doped nanomaterial (water-heating nanoparticles (NPs)) as a strong 1.0 µm emissive NP to target the absorption band of water. Furthermore, introducing Tm ions into the water-heating NPs improved the NIR lifetime, and it was developed as an NIR imaging-guided water-heating probe (water-heating NIR NPs). In the glioblastoma multiforme (GBM) mouse model, tumor-targeted water-heating NIR NPs reduced the tumor volume by 78.9% in the presence of high-resolution intracranial NIR long-lifetime imaging. Hence, water-heating NIR NPs can be used as a novel nanomaterial for imaging and photothermal ablation in deep-tissue-bearing tumor therapy.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00
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License: CC-BY-4.0