n.微元件学；微型体学

Micrology is the study of extremely small objects, such as cells or subcellular structures.
微罗学是对极小物体的研究，如细胞或亚细胞结构。
The field of micrology has advanced significantly in recent years with the development of new imaging techniques.
随着新成像技术的发展，微罗学领域近年来取得了显著进展。
Micrology can be applied to many areas of science, including biology, chemistry, and physics.
微罗学可以应用于科学的许多领域，包括生物学、化学和物理学。
A micrologist might use a variety of tools, such as electron microscopes, to study tiny samples.
微罗学家可能会使用各种工具，如电子显微镜，来研究微小样本。
The study of viruses often requires specialized micrology techniques due to their small size.
由于病毒体积小，对其的研究往往需要专门的微罗学技术。
Micrology plays a crucial role in fields like medicine, where understanding the structure of pathogens is essential for developing treatments.
在医学等领域中，微罗学扮演着至关重要的角色，因为理解病原体的结构对于开发治疗方法至关重要。
Advancements in micrology have led to breakthroughs in nanotechnology, allowing for the manipulation of matter at the smallest scales.
微罗学的进步导致纳米技术领域的突破，使得在最小尺度上操纵物质成为可能。
The detailed images obtained through micrology have provided insights into the complex structures of materials at the atomic level.
通过微罗学获得的详细图像提供了对材料原子级复杂结构的洞察。
Micrology is not only used for scientific research but also for forensic analysis and quality control in manufacturing industries.
微罗学不仅用于科学研究，还用于制造业的法医分析和质量控制。
The interdisciplinary nature of micrology makes it an essential tool for scientists working across different fields of study.
微罗学的跨学科性质使其成为从事不同研究领域的科学家的重要工具。