analytes

简明释义

英[ˈæn.ə.laɪts]美[ˈæn.ə.laɪts]

n. [分化]分析物（analyte 的复数形式）

英英释义

单词用法

同义词

反义词

例句

1.This does not imply that the separated chemical components are recovered after the separation and analyzed. Usually, the analytes are irretrievable.

这一过程并不意味着经过分离和分析过程是可逆的，通常，所有的分离出的分析物是不能再复原回原来的混合物的。

2.Extraction and separation can be achieved by the specific interactions between analytes and the surface of fiber packed into capillaries.

纤维材料可通过溶质与其表面的相互作用来实现对被分析物质的萃取和分离。

3.The imprinted fiber showing the best performance in terms of selectivity and affinity for triazines was successfully applied to the extraction of target analytes from environmental and food samples.

对三嗪环有最强选择性和亲和力的印迹聚合纤维被成功用于从环境和食品样品中提取被分析物。

4.The capture complexes capture analytes.

捕获复合物能捕获分析物。

5.The main contents of the present dissertation are as follows:1. A new sensor array based on nanomaterial-based cataluminescence was developed for analytes recognitions.

研究内容包括：1。提出了基于纳米材料表面化学发光响应原理的传感器阵列。

6.The analytes were extracted by protein precipitation, using chlorzoxazone as internal standard.

以氯唑沙宗为内标，血浆样品以蛋白沉淀法处理。

7.The detection of environmental analytes helps assess pollution levels.

环境分析物的检测有助于评估污染水平。

8.The laboratory tested various analytes to determine the composition of the water sample.

实验室测试了各种分析物以确定水样的成分。

9.In clinical settings, healthcare professionals often monitor specific analytes in blood tests.

在临床环境中，医疗专业人员通常监测血液检测中的特定分析物。

10.During the experiment, we measured the concentration of various analytes in the samples.

在实验过程中，我们测量了样品中各种分析物的浓度。

11.The presence of certain analytes can indicate disease progression in patients.

某些分析物的存在可以指示患者疾病的进展。

作文

In the field of analytical chemistry, the term analytes refers to the substances or compounds that are being measured or analyzed during an experiment. Understanding what analytes are is crucial for anyone involved in scientific research or laboratory work. For instance, when a chemist conducts an experiment to determine the concentration of a specific substance in a solution, that substance is considered the analyte. The process of identifying and quantifying analytes can provide valuable information about the composition of materials, which is essential in various applications ranging from pharmaceuticals to environmental monitoring.The significance of accurately identifying analytes cannot be overstated. In drug development, for example, researchers must analyze the active ingredients in medications to ensure they meet safety and efficacy standards. If the analytes are not properly identified, it could lead to ineffective treatments or harmful side effects. Similarly, in environmental science, measuring analytes such as pollutants in water or air is vital for assessing the health of ecosystems and human populations.Different techniques are employed to analyze analytes, including chromatography, spectroscopy, and mass spectrometry. Each method has its own advantages and limitations, depending on the nature of the analytes and the required sensitivity and specificity of the analysis. For instance, gas chromatography is often used for volatile analytes, while liquid chromatography can be more effective for larger, non-volatile compounds. Understanding these methodologies is essential for selecting the appropriate technique for analyzing specific analytes.Moreover, advancements in technology have significantly improved the ability to detect and quantify analytes. High-resolution instruments can now measure trace levels of analytes in complex mixtures, which was not possible with older technologies. This progress has opened new avenues for research and application, allowing scientists to explore previously inaccessible areas of study. For example, the detection of biomarkers in biological samples can lead to breakthroughs in personalized medicine, where treatments are tailored to individual patients based on their unique analytes profile.In conclusion, the concept of analytes plays a pivotal role in the realm of scientific analysis. Whether in chemistry, biology, or environmental science, understanding and accurately measuring analytes is fundamental to advancing knowledge and ensuring safety in various fields. As technology continues to evolve, the methods for analyzing analytes will become even more sophisticated, leading to greater discoveries and innovations that can benefit society as a whole. Therefore, a strong grasp of the term analytes and its implications is essential for anyone engaged in scientific inquiry or industry practices.

在分析化学领域，术语analytes指的是在实验中被测量或分析的物质或化合物。理解analytes是什么对任何参与科学研究或实验室工作的人来说都是至关重要的。例如，当化学家进行实验以确定溶液中特定物质的浓度时，该物质被视为analyte。识别和量化analytes的过程可以提供有关材料成分的有价值信息，这在从制药到环境监测的各种应用中都是必不可少的。准确识别analytes的重要性不容低估。在药物开发中，例如，研究人员必须分析药物中的活性成分，以确保它们符合安全性和有效性标准。如果analytes未被正确识别，可能会导致治疗无效或产生有害副作用。同样，在环境科学中，测量水或空气中的污染物等analytes对评估生态系统和人类群体的健康至关重要。不同的技术被用来分析analytes，包括色谱法、光谱法和质谱法。根据analytes的性质以及所需的灵敏度和特异性，每种方法都有其自身的优缺点。例如，气相色谱法通常用于挥发性analytes，而液相色谱法可能更适合较大且非挥发性的化合物。理解这些方法论对于选择合适的技术以分析特定analytes是至关重要的。此外，技术的进步显著提高了检测和量化analytes的能力。高分辨率仪器现在可以测量复杂混合物中微量analytes的水平，这是旧技术无法做到的。这一进展开启了新的研究和应用途径，使科学家能够探索以前无法进入的研究领域。例如，在生物样本中检测生物标志物可以导致个性化医疗的突破，其中治疗根据患者独特的analytes特征量身定制。总之，analytes的概念在科学分析领域发挥着关键作用。无论是在化学、生物学还是环境科学中，理解和准确测量analytes是推动知识进步和确保各个领域安全的基础。随着技术的不断发展，分析analytes的方法将变得更加复杂，从而带来更大的发现和创新，造福整个社会。因此，牢固掌握analytes这一术语及其含义对于任何参与科学研究或行业实践的人来说都是必不可少的。