synthetic method

简明释义

综合法

英英释义

例句

1.The synthetic method 合成方法 has been widely adopted in the production of artificial flavors and fragrances.

这种合成方法 synthetic method 已广泛应用于人工香料和香水的生产。

2.Using a synthetic method 合成方法, scientists can replicate natural processes in a laboratory setting.

科学家们可以在实验室环境中使用合成方法 synthetic method 来复制自然过程。

3.The researchers developed a new drug using a synthetic method 合成方法 that significantly reduced production costs.

研究人员采用一种新的合成方法 synthetic method 开发了一种新药，大大降低了生产成本。

4.The synthetic method 合成方法 employed in this study allowed for the rapid assembly of complex molecules.

本研究中采用的合成方法 synthetic method 使得复杂分子的快速组装成为可能。

5.In the field of materials science, a synthetic method 合成方法 is often used to create polymers with specific properties.

在材料科学领域，通常使用合成方法 synthetic method 来创建具有特定性质的聚合物。

作文

In the field of research and development, particularly in chemistry and materials science, the term synthetic method refers to a systematic approach used to create new compounds or materials through chemical reactions. This method contrasts with natural processes, as it involves human intervention to combine various elements or compounds to achieve desired properties or functionalities. The significance of the synthetic method cannot be overstated, as it has led to numerous advancements in technology, medicine, and industry.One of the most notable applications of the synthetic method is in the pharmaceutical industry, where researchers utilize this approach to develop new drugs. By understanding the structure-activity relationship (SAR) of compounds, scientists can design and synthesize molecules that target specific biological pathways. For instance, the development of antiretroviral drugs for HIV treatment relied heavily on the synthetic method to create compounds that inhibit the virus's replication process. This has significantly improved the quality of life for millions of people living with HIV/AIDS.Moreover, the synthetic method plays a crucial role in materials science, particularly in the production of polymers and nanomaterials. Through controlled chemical reactions, researchers can manipulate the molecular structure of materials to enhance their properties, such as strength, flexibility, and thermal stability. For example, the creation of high-performance plastics used in aerospace and automotive industries is largely attributed to advancements made possible by the synthetic method. These materials not only improve efficiency but also contribute to sustainability by reducing weight and enhancing fuel economy.In addition to its applications in pharmaceuticals and materials science, the synthetic method is also pivotal in environmental science. Researchers are developing synthetic methods to create biodegradable plastics and other sustainable materials that can help mitigate pollution and reduce our carbon footprint. By synthesizing new compounds that break down more easily in the environment, scientists aim to address the growing concern of plastic waste and its impact on ecosystems.Despite its many advantages, the synthetic method is not without challenges. The complexity of chemical reactions can lead to unintended byproducts, which may pose safety and environmental risks. Additionally, the cost of synthesizing new materials can be prohibitively high, limiting their accessibility and widespread adoption. Therefore, ongoing research is essential to optimize these methods, making them more efficient and environmentally friendly.In conclusion, the synthetic method is a vital tool in modern science and technology. Its ability to create new compounds and materials has revolutionized various industries, from pharmaceuticals to environmental science. As we continue to face global challenges, the importance of refining and advancing the synthetic method will only grow, paving the way for innovative solutions that benefit society as a whole.

在研究和开发领域，尤其是在化学和材料科学中，术语合成方法指的是一种系统性的方法，通过化学反应创造新化合物或材料。这种方法与自然过程形成对比，因为它涉及人为干预，将各种元素或化合物结合以实现所需的特性或功能。合成方法的重要性不容小觑，因为它导致了技术、医学和工业的众多进步。合成方法最显著的应用之一是在制药行业，研究人员利用这种方法开发新药。通过理解化合物的结构-活性关系（SAR），科学家可以设计和合成针对特定生物通路的分子。例如，抗逆转录病毒药物的开发在很大程度上依赖于合成方法，以创造抑制病毒复制过程的化合物。这显著改善了数百万艾滋病病毒感染者的生活质量。此外，合成方法在材料科学中也发挥着至关重要的作用，特别是在聚合物和纳米材料的生产中。通过控制化学反应，研究人员可以操纵材料的分子结构，以增强其特性，如强度、柔韧性和热稳定性。例如，高性能塑料的创造，广泛用于航空航天和汽车工业，主要归功于合成方法的进步。这些材料不仅提高了效率，还通过减轻重量和增强燃油经济性促进可持续发展。除了在制药和材料科学中的应用外，合成方法在环境科学中也至关重要。研究人员正在开发合成方法，以创造可生物降解的塑料和其他可持续材料，这可以帮助减轻污染并减少我们的碳足迹。通过合成更容易在环境中分解的新化合物，科学家们旨在解决塑料废物及其对生态系统影响的日益关注。尽管有许多优点，合成方法也面临挑战。化学反应的复杂性可能导致意外副产品，这可能带来安全和环境风险。此外，合成新材料的成本可能过高，限制其可及性和广泛采用。因此，持续的研究对于优化这些方法至关重要，使其更加高效和环保。总之，合成方法是现代科学和技术中的一个重要工具。其创造新化合物和材料的能力已经彻底改变了各个行业，从制药到环境科学。随着我们继续面临全球挑战，完善和推进合成方法的重要性只会增加，为社会整体带来创新解决方案。