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Near‐Infrared Light‐Driving Organic Photothermal Agents with an 88.9% Photothermal Conversion Efficiency for Image‐Guided Synergistic Phototherapy

Xilin Zhao, Xilin Zhao, Mengxin Sun, Cao Xiaohan, Jiashuai Xu, Xiaoyu Li, Xiaowei Zhao, Xiaowei Zhao, Hongguang Lu

2024Advanced Healthcare Materials21 citationsDOI

Abstract

Abstract Photothermal agents (PTAs) with desirable near‐infrared (NIR) absorption and excellent photothermal conversion efficiency (PCE) are ideal candidates for cancer treatment. However, numerous PTAs still require high‐intensity and long‐duration laser irradiation to completely ablate the tumor during the photothermal therapy (PTT) process, resulting in light damage to healthy skin and tissue as well as limiting their biomedical applications. Integrating intense NIR absorption and high PCE into a single small‐molecule PTA is an important prerequisite for realizing efficient PTT, but is a serious challenge. Herein, a series of donor–acceptor type PTAs (CC1 to NC4) are designed through a molecular engineering strategy. Theoretical calculations and experimental results show that the NIR absorption and photothermal effect from CC1 to NC4 are significantly enhanced as expected. Notably, NC4 nanoparticles exhibit intense NIR absorption, superhigh PCE of up to 88.9% for PTT, photoacoustic imaging and photothermal imaging, and effective reactive oxygen species generation for photodynamic therapy (PDT). The superior PTT/PDT synergistic phototherapeutic efficacy is well demonstrated by the complete elimination of tumor in vivo upon one‐time, low‐intensity, and short‐duration laser irradiation (808 nm, 330 mW cm −2 , and 3 min). This work provides a valuable guideline for rational design of PTAs for cancer phototherapy.

Topics & Concepts

Photothermal therapyAbsorption (acoustics)IrradiationMaterials sciencePhotoacoustic imaging in biomedicineLaserPhotothermal effectChemistryNanotechnologyOpticsPhysicsNuclear physicsComposite materialNanoplatforms for cancer theranosticsLuminescence and Fluorescent MaterialsAdvanced Nanomaterials in Catalysis