量子点作为多模态光声和光热造影剂。
Quantum dots as multimodal photoacoustic and photothermal contrast agents.
作者信息
Shashkov Evgeny V, Everts Maaike, Galanzha Ekaterina I, Zharov Vladimir P
机构信息
Philips Classic Laser Laboratories, University of Arkansas for Medical Sciences, Little Rock, Arkansas 72205, USA.
出版信息
Nano Lett. 2008 Nov;8(11):3953-8. doi: 10.1021/nl802442x. Epub 2008 Oct 4.
Abstract
Quantum dots (QDs) have primarily been developed as fluorescent probes with unique optical properties. We herein demonstrate an extension of these QD utilities to photoacoustic (PA) and photothermal (PT) microscopy, using a nanosecond pulse laser excitation (420-900 nm, 8 ns, 10(-3)-10 J/cm(2)). The laser-induced PA, PT and accompanying bubble formation phenomena were studied with an advanced multifunctional microscope, which integrates fluorescence, PA, PT imaging, and PT thermolens modules. It was demonstrated that QDs, in addition to being excellent fluorescent probes, can be used as PA and PT contrast agents and sensitizers, thereby providing an opportunity for multimodal high resolution (300 nm) PA-PT-fluorescent imaging as well as PT therapy. Further improvements for this technology are suggested by increasing the conversion of laser energy in PT, PA, and bubble phenomena in hybrid multilayer QDs that have optimized absorption, thermal, and acoustic properties.
摘要
量子点(QDs)主要被开发为具有独特光学性质的荧光探针。我们在此展示了这些量子点的应用扩展到光声(PA)和光热(PT)显微镜,使用纳秒脉冲激光激发(420 - 900 nm,8 ns,10⁻³ - 10 J/cm²)。利用先进的多功能显微镜研究了激光诱导的光声、光热以及伴随的气泡形成现象,该显微镜集成了荧光、光声、光热成像和光热热透镜模块。结果表明,量子点除了是优异的荧光探针外,还可用作光声和光热造影剂及敏化剂,从而为多模态高分辨率(300 nm)光声 - 光热 - 荧光成像以及光热治疗提供了机会。通过提高在具有优化吸收、热和声学性质的混合多层量子点中激光能量在光热、光声和气泡现象中的转换,对该技术提出了进一步改进建议。
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