electroanalysis

简明释义

[ɪlektrəʊəˈnælɪsɪs][ɪˌlektroəˈnæləsɪs]

n. 电解;电分析

英英释义

Electroanalysis is a branch of analytical chemistry that involves the use of electrical methods to analyze the composition of substances.

电分析是分析化学的一个分支,涉及使用电学方法来分析物质的成分。

单词用法

electrochemical analysis

电化学分析

voltammetric electroanalysis

伏安法电分析

electroanalytical methods

电分析方法

perform electroanalysis

进行电分析

apply electroanalysis techniques

应用电分析技术

conduct an electroanalysis experiment

进行电分析实验

同义词

electrochemical analysis

电化学分析

Electrochemical analysis is widely used in environmental monitoring.

电化学分析广泛用于环境监测。

electroanalytical chemistry

电分析化学

Electroanalytical chemistry techniques are essential for detecting trace metals in solutions.

电分析化学技术对检测溶液中的微量金属至关重要。

反义词

non-electrochemical analysis

非电化学分析

Non-electrochemical analysis techniques are often used for qualitative assessments.

非电化学分析技术通常用于定性评估。

chemical analysis

化学分析

Chemical analysis involves various methods that do not rely on electrical measurements.

化学分析涉及多种不依赖电测量的方法。

例句

1.The character and cause of sliver defect on IF steel sheet surface are studied by means of SEM, chemical analysis and electroanalysis.

用扫描电镜、化学和小样电解法分析了IF钢冷轧板表面条状缺陷特征及成因。

2.The possibility of test by electroanalysis is put forward ground on experimental result.

根据实验结果,提出了用电化学方法进行检验的可能性。

3.The electrolytic mechanism, course of the object pollutants and the biodegradability after electroanalysis were studied.

研究可降解目标污染物的降解机理及历程,并对电解后的废水进行可生化性的考察。

4.Recent progress has demonstrated that ferrocene and its derivatives modified electrodes are mainly applied in fields of electrocatalysis, electroanalysis and biosensor.

二茂铁及其衍生物修饰电极在电催化、电分析和生物传感器等方面具有重要的应用前景。

5.Recent progress has demonstrated that ferrocene and its derivatives modified electrodes are mainly applied in fields of electrocatalysis, electroanalysis and biosensor.

二茂铁及其衍生物修饰电极在电催化、电分析和生物传感器等方面具有重要的应用前景。

6.Meanwhile, it finds out electroanalysis parameters influencing workpiece size precision and surface roughness.

同时还得到了电解参数对工件尺寸精度和表面粗糙度值的影响规律。

7.The 3SF fixed electric potential electroanalysis sensor was chosen as the online continuous detector of boiler sulfur dioxide emission.

选用了3SF定电位电解型传感器作为二氧化硫连续在线监测探头。

8.Researchers are using electroanalysis to study the electrochemical properties of new materials.

研究人员正在使用电分析研究新材料的电化学特性。

9.The application of electroanalysis in food safety testing has gained popularity in recent years.

近年来,电分析在食品安全检测中的应用越来越受欢迎。

10.In pharmaceuticals, electroanalysis can help in the quality control of drug formulations.

在制药行业,电分析可以帮助药物配方的质量控制。

11.The field of electroanalysis is crucial for detecting trace amounts of pollutants in water.

领域中的电分析对于检测水中微量污染物至关重要。

12.Using electroanalysis, scientists can determine the concentration of heavy metals in soil samples.

科学家可以利用电分析确定土壤样本中重金属的浓度。

作文

Electroanalysis is a branch of analytical chemistry that involves the use of electrical techniques to analyze chemical substances. This field has gained significant importance due to its ability to provide rapid and sensitive detection of various analytes in complex matrices. The fundamental principle behind electroanalysis (电分析) is the relationship between electrical signals and chemical reactions, allowing scientists to gain insights into the concentration and behavior of different species in a solution.One of the most common techniques in electroanalysis (电分析) is voltammetry, which measures the current that develops in an electrochemical cell under controlled potential conditions. This method can be used to analyze metal ions, organic compounds, and even biological molecules. The versatility of voltammetry makes it a popular choice for researchers and industrial applications alike.Another important technique within electroanalysis (电分析) is potentiometry, which involves measuring the voltage of an electrochemical cell to determine the concentration of specific ions. Ion-selective electrodes are often employed in this process, allowing for selective analysis of particular ions in the presence of others. This is particularly useful in environmental monitoring, where detecting trace levels of pollutants is crucial for assessing water quality.The development of new materials and technologies has further enhanced the capabilities of electroanalysis (电分析). For instance, nanomaterials such as graphene and carbon nanotubes have been integrated into electrochemical sensors, improving their sensitivity and selectivity. These advancements have opened up new avenues for the detection of biomolecules, making electroanalysis (电分析) an essential tool in biomedical research and diagnostics.In addition to its applications in laboratories, electroanalysis (电分析) has found its way into various industries, including pharmaceuticals, food safety, and environmental science. For example, pharmaceutical companies utilize electroanalysis (电分析) to ensure the quality and purity of their products by detecting impurities and active ingredients. Similarly, in the food industry, electroanalysis (电分析) can help in detecting contaminants and ensuring compliance with safety regulations.Despite its many advantages, electroanalysis (电分析) also faces challenges. One of the major issues is the interference from other substances present in complex samples, which can lead to inaccurate results. Researchers are continuously working on improving the selectivity and sensitivity of electroanalytical methods to overcome these hurdles.In conclusion, electroanalysis (电分析) is a vital area of study that combines chemistry and electrical engineering to provide powerful tools for chemical analysis. Its applications span across various fields, contributing to advancements in technology and improving our understanding of chemical processes. As research progresses and new technologies emerge, the future of electroanalysis (电分析) looks promising, with potential for even greater impact on science and industry.