用于高灵敏度光学温度传感的稀土氧化物纳米探针的等离子体增强 NIR-II 光致发光。

IF 3.1 2区 物理与天体物理 Q2 OPTICS Optics letters Pub Date : 2024-11-15 DOI:10.1364/OL.540944
Baikang Zhuang, Yubiao Yang, Kaihang Huang, Jinchang Yin
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引用次数: 0

摘要

随着光热疗法的不断进步,要想高效地消灭肿瘤细胞,同时最大限度地减少对健康组织的损害,就需要一种高效、无创的人体组织实时温度监测技术。在此,我们报告了一种近红外(NIR)-II光学温度传感纳米探针,其特点是稀土掺杂的氧化钆纳米晶体(RENCs)附着在哑铃状介孔二氧化硅包覆的金纳米棒(AuNRs)上。与纯 RENCs 相比,复合纳米探针在 980 纳米波长的照射下,在近红外区域呈现出强烈的吸收,近红外-II 期光致发光(PL)增加了 97.2 到 102 倍。通过 AuNRs 表面等离子体共振效应产生的局部电场呈哑铃状分布,与纳米探针的结构一致,从而最大限度地增强了 RENCs 的光致发光。此外,近红外-II 辐射随着温度的升高而变化,在 338 K 时,基于聚光寿命的相对灵敏度高达 7.25% K-1,这表明该纳米探针在光学温度传感方面极具潜力。
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Plasmon-enhanced NIR-II photoluminescence of rare-earth oxide nanoprobes for high-sensitivity optical temperature sensing.

With ongoing advancements in photothermal therapy, achieving efficient tumor cell eradication while minimizing damage to healthy tissues necessitates a highly effective and non-invasive real-time temperature monitoring technique for human tissues. Herein, we report a near-infrared (NIR)-II optical temperature sensing nanoprobe featuring rare-earth-doped gadolinium oxide nanocrystals (RENCs) attached to the dumbbell mesoporous silica-coated gold nanorods (AuNRs). The composite nanoprobe presents an intense absorption in the NIR region, and NIR-II photoluminescence (PL) increases by 97.2 to 102-fold compared to pure RENCs upon 980 nm irradiation. The localized electric field generated through surface plasmon resonance effects of AuNRs demonstrated a dumbbell-shaped distribution that aligns with the structure of nanoprobes, maximizing the PL enhancement of RENCs. Moreover, the NIR-II emissions are changed with the rising temperature, with an exceptional relative sensitivity of 7.25% K-1 at 338 K based on PL lifetime, indicating the nanoprobe is highly potential for optical temperature sensing.

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来源期刊
Optics letters
Optics letters 物理-光学
CiteScore
6.60
自引率
8.30%
发文量
2275
审稿时长
1.7 months
期刊介绍: The Optical Society (OSA) publishes high-quality, peer-reviewed articles in its portfolio of journals, which serve the full breadth of the optics and photonics community. Optics Letters offers rapid dissemination of new results in all areas of optics with short, original, peer-reviewed communications. Optics Letters covers the latest research in optical science, including optical measurements, optical components and devices, atmospheric optics, biomedical optics, Fourier optics, integrated optics, optical processing, optoelectronics, lasers, nonlinear optics, optical storage and holography, optical coherence, polarization, quantum electronics, ultrafast optical phenomena, photonic crystals, and fiber optics. Criteria used in determining acceptability of contributions include newsworthiness to a substantial part of the optics community and the effect of rapid publication on the research of others. This journal, published twice each month, is where readers look for the latest discoveries in optics.
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