Examples of using 荧光显微镜 in Chinese and their translations into English
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荧光显微镜研究证实了这些怀疑。
Fluorescence microscopic investigations confirmed these suspicions.StefanHell因研制出超高清荧光显微镜而荣获诺贝尔化学奖。
Stefan Hell received the Nobel Prize for developing super-resolved fluorescence microscopy.调查的大多数涉及某种形式的荧光显微镜,通常耦合到一个或多个透射光技术。
A majority of the investigations involve some form of fluorescence microscopy, often coupled to one or more transmitted light techniques.超分辨率荧光显微镜,其研究人员获得了2014年诺贝尔化学奖;.
Super-resolved fluorescent microscopy, which earned researchers the 2014 Nobel Prize in Chemistry;调查的大部分涉及某种形式的荧光显微镜,往往联接到一个或多个发送的光技术。
A majority of the investigations involve some form of fluorescence microscopy, often coupled to one or more transmitted light techniques.Martin一直在细胞生物学,免疫学和心血管研究领域工作,在流式细胞仪和荧光显微镜方面有扎实的专业背景。
Martin has been working in the fields of cell biology, immunology and cardiovascular research andhas a strong expertise in flow cytometry and fluorescent microscopy.其中多光子和激光共聚焦荧光显微镜之间的主要区别是这些经常是互补的技术利用激光的类型。
Among the major differences between multiphoton and confocal laser fluorescence microscopy is the type of laser utilized in these often complementary techniques.一4Pi显微镜是一个激光扫描的荧光显微镜,其改进了轴向分辨率。
A 4Pi 在某些情况下,如共聚焦和荧光显微镜,分辨率可能实际上超过了这三个方程中任何一个的限制。
In some instances, such as confocal and multiphoton fluorescence microscopy, the resolution may actually exceed the limits placed by any one of these three equations.在1911年奥地利维也纳的深秋,德国物理学家发明了荧光显微镜,而在他的实验室工作。
In the late Fall of 1911,a German physicist invented the fluorescence microscope while working in his laboratory in Vienna.一经证实这是可行的,他们就利用流式细胞仪和荧光显微镜验证他们的发现。
Once they demonstrated this was possible,they verified their findings using flow cytometry and fluorescent microscopy.对于毒理学评估,可以使用荧光显微镜观察表达这些传感器的细胞,因为它们是实时接触异化合物的。
For toxicological assessments,cells expressing these sensors can be observed using fluorescence microscopy as they are exposed to xenobiotic compounds in real-time.这些例子反映了典型的信号电平,在荧光显微镜中,在检测电路中引入的误差通常低于1%。
These examples reflect the typical signal levels in fluorescence microscopy, and errors introduced in the detection electronics are usually less and 1 percent.在荧光显微镜,彩色玻璃滤光片曾一度广泛使用的激发和屏障过滤器集和紫外光和红外光作为有效的阻断剂。
In fluorescence microscopy, colored glass filters were once widely employed in excitation and barrier filter sets and as effective blockers of ultraviolet and infrared light.多光子荧光显微镜的引入提供了一种新的替代共聚焦显微镜,可通过选择性的激励耦合到检测范围更广泛的选择。
The introduction of multiphoton fluorescence microscopy provides a new alternative to confocal 肿瘤靶向是有益的,因为可以使用荧光显微镜激发粒子并发射将破坏癌细胞的光能和热量。
Tumor targeting is beneficial because theparticles can be excited using fluorescence microscopy and emit light energy and heat that will destroy cancer cells.另外,绿色荧光蛋白被用作系统的报告基因,使我们可以使用荧光显微镜观察网络的行为。
In addition, green fluorescent protein is used as a reporter so thatthe behavior of the network can be observed using fluorescence microscopy.此后不久,StanislavVonProvazek开始了一个新时代,他使用荧光显微镜研究固定组织和活细胞中的染料结合。
Shortly thereafter,Stanislav Von Provazek launched a new era when he used fluorescence microscopy to study dye binding in fixed tissues and living cells.光毒性的细胞是一个知之甚少的现象,但不发生很大程度在大多数形式的荧光显微镜。
Phototoxicity in cells is a poorly understood phenomenon,but does occur to a large degree in most forms of fluorescence microscopy.传统的拉曼显微镜对颜色的区分度较高,这正是荧光显微镜所欠缺的,不过它的灵敏度较低。
Traditional Raman 荧光显微镜和生物医学研究的前沿电过去十年已经发生了戏剧性的过渡。
A dramatic transition of fluorescence microscopy and electrophysiology to the forefront 甲STED显微镜的荧光显微镜,其分辨率并不限于由阿贝限制。
其他重要的过程也是使用荧光显微镜可获得的高度特异性和空间分辨率进行研究的目标。
Other important processes are also targets for investigation using the high degree of specificity andspatial resolution available with fluorescence microscopy.许多目前的高性能数码相机系统设计荧光显微镜有光电二极管的尺寸范围从5到16微米和功能芯片分级。
Many of the current high-performance digital camera systems designed for fluorescence microscopy have photodiode sizes ranging from 5 to 16 micrometers and feature on-chip binning.最后还演示了荧光显微镜的许多应用中的一些例子。
Finally, examples of some of the many applications for fluorescence microscopy are shown.….当前,光学显微镜,尤其是荧光显微镜仍然被许多生物学家经常使用。
Currently, light 光学滤光片在实现各应用的过程中发挥着重要的作用,如荧光显微镜和拉曼光谱仪。
Introduction Optical filters play animportant role in enabling applications such as fluorescence microscopy and Raman spectroscopy.SR-SIM代表“超分辨率结构光照显微镜”,是一种荧光显微镜程序。
SR-SIM stands for“super-resolution structured illumination microscopy” and is a fluorescence microscopy procedure.在某些情况下,如共焦和荧光显微镜,分辨率实际上可能超过置于由这三个方程中任一项的限制。
In some instances, such as confocal and fluorescence microscopy, the resolution may actually exceed the limits placed by any one of these three equations.在一些情况下,如共焦和荧光显微镜,分辨率实际上可能超过置于由这三个方程中的任何一个的限制。
In some instances, such as confocal and fluorescence microscopy, the resolution may actually exceed the limits placed by any one of these three equations.
