microchemistry

简明释义

[ˌmaɪkrəʊˈkemɪstri][ˈmaɪkroʊˈkemɪstri;ˌmaɪkroʊˈk

n. [化学] 微量化学

英英释义

Microchemistry refers to the study and analysis of chemical substances at a microscopic scale, often involving small quantities of materials and techniques that allow for precise measurements and observations.

微化学是指在微观尺度上对化学物质进行研究和分析,通常涉及少量材料和允许进行精确测量和观察的技术。

单词用法

in microchemistry

在微化学中

microchemistry applications

微化学应用

microchemistry methods

微化学方法

study of microchemistry

微化学研究

microchemistry laboratory

微化学实验室

microchemistry research

微化学研究

microchemistry instruments

微化学仪器

microchemistry experiments

微化学实验

同义词

microscale chemistry

微尺度化学

Microscale chemistry techniques are often used in educational laboratories.

微尺度化学技术通常用于教育实验室。

analytical chemistry

分析化学

Analytical chemistry plays a crucial role in identifying chemical compounds.

分析化学在识别化合物中起着至关重要的作用。

nano chemistry

纳米化学

Nano chemistry focuses on the properties of materials at the nanoscale.

纳米化学专注于材料在纳米尺度上的性质。

反义词

macrochemistry

宏观化学

Macrochemistry studies the properties and reactions of large quantities of substances.

宏观化学研究大量物质的性质和反应。

bulk chemistry

大宗化学

Bulk chemistry is often used in industrial applications where large-scale reactions are needed.

大宗化学通常用于需要大规模反应的工业应用中。

例句

1.Electrochemical quartz crystal microbalance(EQCM) is one of the effective method in the molecular biology and the microchemistry field because it is simple, quick and the 10-9g detection limit.

电化学石英晶体微天平(EQCM)技术以其简单、快速、可以在纳克级水平上实时检测等优势而成为分子生物学和微量化学领域的有效手段之一。

2.Electrochemical quartz crystal microbalance(EQCM) is one of the effective method in the molecular biology and the microchemistry field because it is simple, quick and the 10-9g detection limit.

电化学石英晶体微天平(EQCM)技术以其简单、快速、可以在纳克级水平上实时检测等优势而成为分子生物学和微量化学领域的有效手段之一。

3.The application of microchemistry can lead to breakthroughs in drug development.

微化学的应用可以在药物开发中带来突破。

4.In environmental science, microchemistry helps identify pollutants at very low concentrations.

在环境科学中,微化学有助于识别极低浓度的污染物。

5.Understanding microchemistry is crucial for improving material properties at the nanoscale.

理解微化学对于改善纳米尺度材料性能至关重要。

6.The field of microchemistry is essential for analyzing chemical processes at a microscopic level.

微化学领域对于在微观层面分析化学过程至关重要。

7.Researchers in microchemistry often use advanced techniques to study reaction mechanisms.

从事微化学的研究人员通常使用先进技术来研究反应机制。

作文

Microchemistry is a fascinating and essential field within the broader scope of chemistry. It focuses on the study of chemical processes and reactions at a microscopic scale, often involving small quantities of substances. The significance of microchemistry (微化学) lies in its ability to provide insights into the behavior of materials and reactions that are not easily observable at a macroscopic level. This branch of chemistry plays a crucial role in various scientific disciplines, including biochemistry, materials science, and environmental science.One of the primary applications of microchemistry (微化学) is in the analysis of biological samples. For instance, in medical diagnostics, microchemical techniques allow for the detection of diseases at an early stage by analyzing minute amounts of biological fluids such as blood or urine. Techniques such as mass spectrometry and microfluidics enable scientists to conduct detailed analyses that were previously impossible with larger sample sizes. This capability not only enhances diagnostic accuracy but also minimizes the invasiveness of tests, providing patients with a more comfortable experience.Furthermore, microchemistry (微化学) is instrumental in the development of new materials. In nanotechnology, researchers manipulate materials at the nanoscale to create innovative products with unique properties. By understanding the chemical behavior of materials at this scale, scientists can design materials that are stronger, lighter, or more efficient than their traditional counterparts. For example, carbon nanotubes, which have remarkable strength and electrical conductivity, are a direct result of advancements in microchemistry (微化学).In addition to its applications in health and materials science, microchemistry (微化学) also plays a critical role in environmental monitoring. With the increasing concerns about pollution and its effects on ecosystems, microchemical methods are employed to detect trace levels of contaminants in water, soil, and air. These methods allow for precise measurements of harmful substances, enabling scientists and policymakers to take informed actions to protect the environment and public health.The study of microchemistry (微化学) also involves the use of advanced instrumentation and techniques. Instruments such as scanning electron microscopes (SEM) and atomic force microscopes (AFM) provide researchers with the tools necessary to visualize and analyze materials at the micro and nanoscale. Additionally, techniques like infrared spectroscopy and nuclear magnetic resonance (NMR) spectroscopy are frequently utilized to understand the molecular structure and dynamics of substances.In conclusion, microchemistry (微化学) is a vital area of chemistry that has far-reaching implications across various fields. Its ability to analyze and manipulate substances at a microscopic level opens up new possibilities for advancements in medicine, materials science, and environmental protection. As technology continues to evolve, the importance of microchemistry (微化学) will undoubtedly grow, paving the way for innovations that can significantly impact our daily lives. Understanding and mastering this field is essential for future scientists and researchers who aspire to contribute to solving some of the world's most pressing challenges.