Qiangbin Wang scite author profile

Ag2S quantum dots (QDs) emitting in the second near-infrared region (NIR-II, 1.0~1.4 μm) are demonstrated as a promising fluorescent probe with both bright photoluminescence and high biocompatibility for the first time. Highly selective in vitro targeting and imaging of different cell lines are achieved using biocompatible NIR-II Ag2S QDs with different targeting ligands. The cytotoxicity study illustrates the Ag2S QDs with negligible effects in altering cell proliferation, triggering apoptosis and necrosis, generating reactive oxygen species (ROS), and causing DNA damage. Our results have opened up the possibilities of using these biocompatible Ag2S QDs for in vivo anatomical imaging and early-stage tumor diagnosis with deep tissue penetration, high sensitivity, as well as elevated spatial and temporal resolution owing to their high emission efficiency in the unique NIR-II imaging window.

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In Vivo Fluorescence Imaging with Ag₂S Quantum Dots in the Second Near‐Infrared Region

Hong

et al. 2012

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Hits the dot: Ag(2)S quantum dots (QDs) with bright near-infrared-II fluorescence emission (around 1200 nm) and six-arm branched PEG surface coating were synthesized for in vivo small-animal imaging. The 6PEG-Ag(2)S QDs afforded a tumor uptake of approximately 10 % injected dose/gram, owing to a long circulation half-life of approximately 4 h. Clearance of the injected 6PEG-Ag(2)S QDs occurs mainly through the biliary pathway in mice.

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Surface Plasmon Resonance Enhanced Light Absorption and Photothermal Therapy in the Second Near-Infrared Window

et al. 2014

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Enhanced near-field at noble metal nanoparticle surfaces due to localized surface plasmon resonance (LSPR) has been researched in fields ranging from biomedical to photoelectrical applications. However, it is rarely explored on nonmetallic nanomaterials discovered in recent years, which can also support LSPR by doping-induced free charge carriers, let alone the investigation of an intricate system involving both. Here we construct a dual plasmonic hybrid nanosystem Au-Cu9S5 with well controlled interfaces to study the coupling effect of LSPR originating from the collective electron and hole oscillations. Cu9S5 LSPR is enhanced by 50% in the presence of Au, and the simulation results confirm the coupling effect and the enhanced local field as well as the optical power absorption on Cu9S5 surface. This enhanced optical absorption cross section, high photothermal transduction efficiency (37%), large light penetration depth at 1064 nm, excellent X-ray attenuation ability, and low cytotoxicity enable Au-Cu9S5 hybrids for robust photothermal therapy in the second near-infrared (NIR) window with low nanomaterial dose and laser flux, making them potential theranostic nanomaterials with X-ray CT imaging capability. This study will benefit future design and optimization of photoabsorbers and photothermal nanoheaters utilizing surface plasmon resonance enhancement phenomena for a broad range of applications.

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Qiangbin Wang

Ag₂S Quantum Dot: A Bright and Biocompatible Fluorescent Nanoprobe in the Second Near-Infrared Window

In Vivo Fluorescence Imaging with Ag₂S Quantum Dots in the Second Near‐Infrared Region

Surface Plasmon Resonance Enhanced Light Absorption and Photothermal Therapy in the Second Near-Infrared Window

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Qiangbin Wang

Ag2S Quantum Dot: A Bright and Biocompatible Fluorescent Nanoprobe in the Second Near-Infrared Window

In Vivo Fluorescence Imaging with Ag2S Quantum Dots in the Second Near‐Infrared Region

Surface Plasmon Resonance Enhanced Light Absorption and Photothermal Therapy in the Second Near-Infrared Window

Contact Info

Product

Resources

About

Ag₂S Quantum Dot: A Bright and Biocompatible Fluorescent Nanoprobe in the Second Near-Infrared Window

In Vivo Fluorescence Imaging with Ag₂S Quantum Dots in the Second Near‐Infrared Region