micrograph

简明释义

英[ˈmaɪkrəʊɡrɑːf]美[ˈmaɪkroɡræf]

n. 显微照片，显微图；微动描记器

英英释义

单词用法

同义词

反义词

例句

1.Methods: Sections combined with micrograph were used to analyse chromosome.

方法：采用常规制片方法，并结合显微摄影。

2.Tranfer function independent of frequency for electron micrograph deconvolution is obtained, which improves the resolution of electron micrograph.

对电子显微解卷，得到与频率无关的传递函数，提高了电子显微像的分辨率。

3.A colored transmission electron micrograph image captures the HIV virus budding from the surface of a T-lymphocyte white blood cell.

艾滋病图片。一幅染色的传输电子显微图像捕捉艾滋病病毒的萌芽从表面的一个白血细胞中的T淋巴细胞。

4.An electron micrograph reveals sharkskin's secret to speed: tooth-like scales called dermal denticles.

电子显微照揭示了鲨鱼皮的速度奥秘，“牙状鳞片称为皮肤的细齿，水通过密纹而没有翻滚”鲨鱼研究员乔治·伯吉斯说。

5.Electron Micrograph of Drosophila Fly's Eyes.

在这里输入译文果蝇眼睛的电子显微图。

6.Micrograph technology was used to measure film coating thickness.

采用显微图像测量薄膜包衣厚度。

7.Then growth and proliferation of the cells were observed from the micrograph.

对贴壁细胞的生长及增殖活性进行观察；

8.This electron micrograph demonstrates the dense deposits in the basement membrane of MPGN type II.

电镜下膜增生性肾小球肾炎ii型，基底膜有电子致密物沉积。

9.With the analysis of SEM micrograph of the oxide film and other electrochemical parameters, the construction of the oxide film by layers was presented.

通过对阳极氧化膜的SEM微观形貌图及其他电化学参数的分析，推断氧化膜为分层结构；

10.The lab technician captured a micrograph 显微照片 of the crystal formation.

实验室技术员拍摄了晶体形成的micrograph 显微照片。

11.Using a high-resolution micrograph 显微照片, researchers identified the bacteria species.

利用高分辨率的micrograph 显微照片，研究人员识别出了细菌种类。

12.The scientist examined the micrograph 显微照片 to analyze the cell structure.

科学家检查了这个micrograph 显微照片以分析细胞结构。

13.The micrograph 显微照片 showed intricate details of the tissue sample.

这张micrograph 显微照片显示了组织样本的复杂细节。

14.In the research paper, the micrograph 显微照片 provided clear evidence of the material's composition.

在研究论文中，这张micrograph 显微照片提供了材料成分的清晰证据。

作文

In the field of science, particularly in biology and materials science, the term micrograph refers to a photograph or image taken through a microscope. It plays a crucial role in the visualization of structures that are too small to be seen with the naked eye. The importance of micrographs cannot be overstated, as they allow researchers and scientists to observe the intricate details of cells, tissues, and materials at a microscopic level.For instance, in biological research, micrographs are essential for studying the morphology of cells. By examining micrographs, scientists can identify various cell types, understand their functions, and observe any pathological changes that may occur due to diseases. This kind of analysis is vital for medical research, where understanding the cellular structure can lead to breakthroughs in treatment and diagnosis.Similarly, in materials science, micrographs help in analyzing the properties of different materials. For example, metallurgists use micrographs to examine the grain structure of metals. This information is critical in determining how materials will behave under stress, how they can be processed, and what applications they are suitable for. By studying the micrographs, engineers can enhance material performance and develop new alloys with improved characteristics.The process of creating a micrograph involves several steps. First, a specimen must be prepared, which may include slicing it into thin sections, staining it to enhance contrast, and mounting it on a slide. Once prepared, the specimen is placed under a microscope, where the researcher can focus on specific areas of interest. The resulting images can then be captured using a camera attached to the microscope, producing a detailed micrograph that can be analyzed further.Furthermore, advancements in technology have significantly improved the quality of micrographs. Modern microscopes, such as electron microscopes and confocal microscopes, provide higher resolution and contrast, allowing for even finer details to be captured. These high-quality micrographs are invaluable for scientific publications, where they illustrate findings and support research conclusions.In addition to their scientific applications, micrographs also find their way into educational materials. They serve as powerful tools for teaching students about the microscopic world, helping to bridge the gap between theoretical knowledge and practical observation. By studying micrographs, students can gain a deeper appreciation for the complexity of life and the materials that surround us.In conclusion, micrographs are more than just images; they are windows into a world that is otherwise invisible to us. Their significance spans multiple disciplines, from biology to materials science, and they continue to play an essential role in advancing our understanding of the universe. As technology evolves, we can expect micrographs to become even more integral to research and education, providing insights that drive innovation and discovery. The ability to capture and analyze the microscopic world will undoubtedly lead to new frontiers in science, enhancing our knowledge and improving our lives in countless ways.

在科学领域，特别是在生物学和材料科学中，术语micrograph指的是通过显微镜拍摄的照片或图像。它在可视化肉眼无法看到的微小结构方面起着至关重要的作用。micrographs的重要性不容小觑，因为它们使研究人员和科学家能够在微观层面上观察细胞、组织和材料的复杂细节。例如，在生物研究中，micrographs对于研究细胞的形态至关重要。通过检查micrographs，科学家可以识别各种细胞类型，了解它们的功能，并观察由于疾病而可能发生的任何病理变化。这种分析对于医学研究至关重要，因为理解细胞结构可以导致治疗和诊断的突破。同样，在材料科学中，micrographs有助于分析不同材料的特性。例如，冶金学家使用micrographs来检查金属的晶粒结构。这些信息对于确定材料在压力下的表现、如何加工材料以及适合哪些应用至关重要。通过研究micrographs，工程师可以提高材料性能，开发具有改进特性的合金。创建micrograph的过程涉及几个步骤。首先，必须准备一个标本，这可能包括将其切成薄片、染色以增强对比度并将其装载在载玻片上。一旦准备好，标本就放置在显微镜下，研究人员可以专注于感兴趣的特定区域。然后，可以使用连接到显微镜的相机捕捉生成的图像，产生可以进一步分析的详细micrograph。此外，技术的进步显著提高了micrographs的质量。现代显微镜，例如电子显微镜和共聚焦显微镜，提供更高的分辨率和对比度，使得能够捕捉到更细微的细节。这些高质量的micrographs在科学出版物中是无价的，它们展示了发现并支持研究结论。除了科学应用外，micrographs还出现在教育材料中。它们作为强大的工具，帮助学生了解微观世界，帮助弥合理论知识与实际观察之间的差距。通过学习micrographs，学生可以更深入地欣赏生命的复杂性和周围材料的复杂性。总之，micrographs不仅仅是图像；它们是通往一个我们否则无法看见的世界的窗口。它们的重要性跨越多个学科，从生物学到材料科学，它们继续在推动我们对宇宙的理解方面发挥重要作用。随着技术的发展，我们可以期待micrographs在研究和教育中变得更加不可或缺，提供推动创新和发现的见解。捕捉和分析微观世界的能力无疑将引领科学的新前沿，增强我们的知识，并以无数方式改善我们的生活。