photomicrograph

简明释义

英[ˌfəʊtəʊˈmaɪkrəɡrɑːf]美[ˌfotoˈmaɪkrəɡræf]

n. 显微照片

vt. 给……拍摄显微照片

英英释义

单词用法

同义词

反义词

例句

1.The scanning electron photomicrograph of aluminosilicate particle shows that the pyrophyllite particles take the shape of thin slice, but illite and kaolinite are particles with irregular appearance.

矿粒的扫描电镜照片表明：叶蜡石颗粒主要呈薄片状；伊利石和高岭石颗粒呈不规则形状。

2.The scanning electron photomicrograph of aluminosilicate particle shows that the pyrophyllite particles take the shape of thin slice, but illite and kaolinite are particles with irregular appearance.

矿粒的扫描电镜照片表明：叶蜡石颗粒主要呈薄片状；伊利石和高岭石颗粒呈不规则形状。

3.This photomicrograph of a chick 's retina was produced using an antibody staining, which harnesses the exquisite precision and sensitivity of antibodies to recognize specific biological molecules.

这幅鸡视网膜的显微照片是利用抗体染色制作出来的，这种染色方法利用了抗体异常精确和敏感的特性去识别特定的生物分子。

4.This photomicrograph of a chick's retina was produced using an antibody staining, which harnesses the exquisite precision and sensitivity of antibodies to recognize specific biological molecules.

这幅鸡视网膜的显微照片是利用抗体染色制作出来的，这种染色方法利用了抗体异常精确和敏感的特性去识别特定的生物分子。

5.This photomicrograph was obtained by scanning a beam of electrons across the sample while a detector kept track of electrons bouncing off its surface, betraying the specimen's outer shape.

这幅显微照片是通过扫描穿过样品的电子束而获得的，同时检测器对从样品表面反弹的电子进行追踪，这些电子显示了标本的外形。

6.It includes recommended target cleanliness guidelines for system components and photomicrograph samples of different cleanliness levels.

它包括建议的目标系统的组成部分和不同的清洁程度显微照片样本清洁准则。

7.This contrasts with the aerated lung on the right of this photomicrograph.

右边是充满气体的肺组织。

8.At low magnification, this photomicrograph reveals multiple granulomas.

低倍镜显示了多个肉芽肿。

9.You can see the structures clearly in the photomicrograph below.

在下面的显微照片，您可以看到清楚的结构。

10.The photomicrograph shown was taken from aleprosy skin lesion.

上图为显微镜拍摄到的皮肤病变部位的麻风杆菌。

11.The scientist captured a stunning photomicrograph 显微照片 of the cell structure under high magnification.

科学家在高倍放大下拍摄了一张令人惊叹的photomicrograph 显微照片，展示了细胞结构。

12.In her research paper, she included a detailed photomicrograph 显微照片 to illustrate the bacteria's morphology.

在她的研究论文中，她包含了一张详细的photomicrograph 显微照片，以说明细菌的形态。

13.The photomicrograph 显微照片 revealed intricate details of the tissue sample that were previously unnoticed.

这张photomicrograph 显微照片揭示了组织样本中之前未被注意到的复杂细节。

14.During the microscopy workshop, participants learned how to take a proper photomicrograph 显微照片 of various specimens.

在显微镜研讨会上，参与者学习如何拍摄各种标本的合适photomicrograph 显微照片。

15.The photomicrograph 显微照片 displayed the crystal structures in stunning clarity, aiding in mineral identification.

这张photomicrograph 显微照片以惊人的清晰度展示了晶体结构，有助于矿物鉴定。

作文

The world of microscopy is a fascinating realm that reveals the hidden structures of life, allowing us to explore the intricate details of organisms, cells, and materials that are otherwise invisible to the naked eye. One of the most significant contributions of microscopy to science is the creation of a photomicrograph, which is a photograph taken through a microscope. This powerful tool has transformed our understanding of biology, materials science, and medicine by providing visual evidence that supports research and discovery. A photomicrograph serves as a bridge between the microscopic world and our macroscopic perception. By capturing images at high magnifications, these photographs allow scientists to document their findings and share them with others. For instance, in biology, a photomicrograph of a cell can reveal its organelles, such as the nucleus, mitochondria, and endoplasmic reticulum. These images are crucial for understanding cellular functions and the underlying mechanisms of life. In materials science, photomicrographs are used to examine the microstructure of materials, including metals, polymers, and ceramics. By analyzing these images, researchers can identify defects, grain boundaries, and phase distributions that affect the properties and performance of materials. This information is essential for developing new materials and improving existing ones, which can lead to advancements in technology and engineering. Moreover, the medical field greatly benefits from photomicrographs. Pathologists often rely on these images to diagnose diseases by examining tissue samples under a microscope. A photomicrograph of a biopsy can reveal cancerous cells or other abnormalities, enabling timely and accurate diagnosis. The ability to visualize cellular details aids in understanding the progression of diseases and evaluating treatment effectiveness. Creating a high-quality photomicrograph requires not only skill in microscopy but also an understanding of proper lighting, contrast, and resolution. Different staining techniques can enhance specific features of the sample, making it easier to distinguish between various structures. For example, using fluorescent dyes can highlight particular proteins within a cell, resulting in stunning photomicrographs that provide insights into cellular processes. In conclusion, the significance of photomicrographs in modern science cannot be overstated. They are indispensable tools that facilitate research, enhance communication among scientists, and contribute to the advancement of knowledge across multiple disciplines. Whether in biology, materials science, or medicine, photomicrographs play a vital role in uncovering the mysteries of the microscopic world, ultimately enriching our understanding of the universe around us. As technology continues to evolve, we can expect even more remarkable photomicrographs that will further illuminate the complexities of life and matter, paving the way for future discoveries and innovations.

显微镜学的世界是一个迷人的领域，它揭示了生命的隐藏结构，使我们能够探索生物体、细胞和材料的复杂细节，这些在肉眼下是不可见的。显微镜学对科学的最重要贡献之一就是创造了光学显微照片，这是一种通过显微镜拍摄的照片。这种强大的工具通过提供支持研究和发现的视觉证据，改变了我们对生物学、材料科学和医学的理解。 光学显微照片作为微观世界与我们宏观感知之间的桥梁。通过高倍放大捕捉图像，这些照片使科学家能够记录他们的发现并与他人分享。例如，在生物学中，细胞的光学显微照片可以揭示其细胞器，如细胞核、线粒体和内质网。这些图像对于理解细胞功能和生命的基本机制至关重要。 在材料科学中，光学显微照片用于检查材料的微观结构，包括金属、高分子和陶瓷。通过分析这些图像，研究人员可以识别缺陷、晶粒边界和影响材料性能的相分布。这些信息对于开发新材料和改善现有材料至关重要，这可以推动技术和工程的进步。 此外，医学领域也极大地受益于光学显微照片。病理学家通常依赖这些图像通过显微镜检查组织样本来诊断疾病。一张活检的光学显微照片可以揭示癌细胞或其他异常，从而实现及时和准确的诊断。可视化细胞细节的能力有助于理解疾病的进展和评估治疗效果。 制作高质量的光学显微照片不仅需要显微镜技术的技能，还需要对适当的照明、对比度和分辨率的理解。不同的染色技术可以增强样本的特定特征，使区分各种结构变得更加容易。例如，使用荧光染料可以突出细胞内特定蛋白质，从而产生令人惊叹的光学显微照片，为细胞过程提供深刻的见解。 总之，光学显微照片在现代科学中的重要性不容低估。它们是不可或缺的工具，促进研究，增强科学家之间的沟通，并推动多个学科知识的发展。无论是在生物学、材料科学还是医学中，光学显微照片在揭示微观世界的奥秘中发挥着至关重要的作用，最终丰富了我们对周围宇宙的理解。随着技术的不断发展，我们可以期待更多卓越的光学显微照片，进一步阐明生命和物质的复杂性，为未来的发现和创新铺平道路。