electroanalysis

electroanalysis的音标为[ɪˌlektrəʊəˈnæləsɪs]，基本翻译为“电分析”，速记技巧为：电分析利用电学方法研究物质的化学反应。

Electroanalysis是一个与电化学分析有关的学科，其英文词源可以追溯到拉丁语和希腊语。Electro-意为“电”，analysis则来自希腊语ana-（分离）和-lysos（研究），表示分离研究。

变化形式：在英语中，electroanalysis一词没有明显的变化形式。

相关单词：

1. Electrode（电极）：电化学反应中与电解质接触并产生电流的物质。

2. Electrolysis（电解）：通过电流使电解质分解为简单成分的过程。

3. Cathode（阴极）：在电池或电化学反应中，电流流入的一极。

4. Anode（阳极）：在电池或电化学反应中，电流流出的一极。

5. Galvanic Cell（原电池）：一种能够产生电流的化学反应装置。

6. Electroplating（电镀）：通过电流在金属表面沉积一层金属的过程。

7. Electrochemistry（电化学）：研究电与化学反应之间关系的学科。

8. Electrokinetics（电动力学）：研究电场中物质运动规律的学科。

9. Electrostatics（静电学）：研究静止电荷之间相互作用力的学科。

10. Electrosonics（电子学）：研究电子设备和系统的学科，包括电路设计、信号处理、通信等。

以上这些单词都与电化学分析有关，是电化学领域的重要概念和工具。

常用短语：

1. electrochemical analysis

2. electrodeposition

3. electrosynthesis

4. electrolysis

5. galvanic cell

6. voltaic pile

7. corrosion prevention

双语例句：

1. Electroanalysis is widely used in environmental monitoring. (电分析在环境监测中广泛应用。)

2. Electrolysis is a method of decomposing substances by applying an electric field. (电解是一种通过应用电场分解物质的方法。)

3. Galvanic cells are commonly used in batteries. (原电池在电池中广泛应用。)

4. Electroanalysis plays an important role in modern technology. (电分析在现代技术中起着重要的作用。)

5. Electrodes are commonly used in the field of electroanalysis. (电极在电分析领域中常用。)

6. Corrosion prevention is crucial in ensuring the longevity of metal structures. (防腐对于确保金属结构的寿命至关重要。)

7. Electrochemical processes are involved in many industrial processes. (电化学过程涉及许多工业过程。)

英文小作文：

Electroanalysis is a branch of chemistry that deals with the study of chemical reactions that occur through the use of electricity. It is a crucial tool in modern society, as it plays a significant role in various fields such as environmental monitoring, energy production and storage, and industrial processes.

One of the most common applications of electroanalysis is in the field of analytical chemistry, where it is used to detect and measure various substances in a sample. Electrochemical methods can be used to detect very low concentrations of substances, making them particularly useful in fields such as medicine and food safety, where accurate and reliable measurements are crucial.

In addition to its use in analytical chemistry, electroanalysis is also important in ensuring the longevity of metal structures, as it can be used to prevent corrosion and other forms of degradation. Galvanic cells and electrolysis are two common methods used in electroanalysis to prevent corrosion, as they can create an environment that is less conducive to corrosion.

Overall, electroanalysis plays a crucial role in modern society and is a versatile tool that can be used in various fields to achieve a variety of goals. It is a constantly evolving field that continues to discover new and innovative applications for its use.