LED集成激发立方体对比度增强荧光显微镜

Yuan Liu, Xiang Zhang, Fei Su, Z. Guo, D. Jin
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引用次数: 2

摘要

荧光显微镜是科学家观察微观世界的有力工具,而荧光激发光源是其中最关键的组成部分之一。针对传统光源(如汞灯、卤素灯和氙灯)使用寿命短、光源集成、激发效率低等缺点,设计了一种分散结构、高光功率密度的led集成激发立方(LEC)。利用菲涅耳透镜,发光二极管(LED)发出的光被有效聚焦在15mm的安装距离内,以实现高效照明。LEC可以很容易地设计成荧光过滤器立方体的形状,用于安装在商业荧光显微镜中。发光二极管的光效比汞灯高1-2个数量级;因此,可以实现从紫外到红光光谱覆盖的高质量荧光成像。通过取代传统的荧光滤光片,LEC可以很容易地安装在任何商用荧光显微镜上。内置的LEC驱动器可以识别不同光谱带的led类型,从而采用最佳的工作电流和脉冲频率。此外,通过长寿命发光的时间门控成像,可以在脉冲模式下获得高对比度的图像。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Contrast-enhanced fluorescence microscope by LED integrated excitation cubes
Fluorescence microscopy is a powerful tool for scientists to observe the microscopic world, and the fluorescence excitation light source is one of the most critical components. To compensate for the short operation lifetime, integrated light sources, and low excitation efficiency of conventional light sources such as mercury, halogen, and xenon lamps, we designed an LED-integrated excitation cube (LEC) with a decentralized structure and high optical power density. Using a Fresnel lens, the light from the light-emitting diode (LED) was effectively focused within a 15 mm mounting distance to achieve high-efficiency illumination. LEC can be easily designed in the shape of fluorescence filter cubes for installation in commercial fluorescence microscopes. LECs’ optical efficiency is 1–2 orders of magnitude higher than that of mercury lamps; therefore, high-quality fluorescence imaging with spectral coverage from UV to red can be achieved. By replacing conventional fluorescence filter cubes, LEC can be easily installed on any commercial fluorescence microscope. A built-in LEC driver can identify the types of LEDs in different spectral bands to adopt the optimal operating current and frequency of pulses. Moreover, high-contrast images can be achieved in pulse mode by time-gated imaging of long-lifetime luminescence.
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CiteScore
10.90
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