unstable compound

简明释义

不稳定化合物

英英释义

例句

1.In organic chemistry, understanding the properties of an unstable compound (不稳定化合物) is crucial for safe experimentation.

在有机化学中，理解不稳定化合物（unstable compound）的性质对安全实验至关重要。

2.Researchers are studying how to stabilize an unstable compound (不稳定化合物) for use in pharmaceuticals.

研究人员正在研究如何稳定一种不稳定化合物（unstable compound）以用于药物。

3.The chemist warned that the reaction could produce an unstable compound (不稳定化合物) that might explode if not handled properly.

化学家警告说，反应可能产生一种不稳定化合物（unstable compound），如果处理不当可能会爆炸。

4.The explosion was traced back to an unstable compound (不稳定化合物) that was improperly stored.

爆炸的原因追溯到一种存储不当的不稳定化合物（unstable compound）。

5.The unstable compound (不稳定化合物) formed during the synthesis was quickly decomposed to prevent any hazards.

合成过程中形成的不稳定化合物（unstable compound）被迅速分解以防止任何危险。

作文

In the realm of chemistry, the term unstable compound refers to a substance that is prone to change or decomposition under certain conditions. These compounds can undergo rapid reactions, often resulting in the release of energy in the form of heat or light. Understanding unstable compounds is crucial for chemists, as they can pose significant risks if not handled properly. For instance, many explosive materials are classified as unstable compounds due to their tendency to react violently when exposed to heat, shock, or friction.The study of unstable compounds not only enhances our knowledge of chemical reactions but also plays a vital role in various industries. In pharmaceuticals, for example, the development of new drugs often involves the synthesis of unstable compounds that may have potent therapeutic effects. However, these compounds must be stabilized before they can be safely used in medical treatments.Moreover, the field of environmental science frequently encounters unstable compounds. Many pollutants are inherently unstable, which can lead to unpredictable behavior in ecosystems. For instance, certain pesticides break down into unstable compounds that can harm non-target species and disrupt local biodiversity. This highlights the importance of monitoring and managing unstable compounds to mitigate their adverse effects on the environment.In addition to their practical implications, unstable compounds also present intriguing theoretical challenges. Chemists strive to understand the mechanisms behind their instability in order to predict their behavior accurately. This research can lead to the discovery of new materials with desirable properties, such as catalysts that enhance reaction rates without becoming unstable compounds themselves.Furthermore, the concept of unstable compounds extends beyond traditional chemistry into fields like materials science and nanotechnology. Researchers are exploring how to create unstable compounds that can self-assemble into complex structures at the nanoscale. These innovations could revolutionize the development of new materials with tailored properties for electronics, medicine, and renewable energy.In conclusion, unstable compounds are a fascinating and multifaceted area of study within chemistry and related disciplines. Their propensity for change presents both challenges and opportunities. As we continue to explore the properties and behaviors of unstable compounds, we unlock new possibilities for technological advancements and improved safety measures in handling reactive substances. The careful study of these compounds not only deepens our understanding of chemical principles but also lays the groundwork for future innovations that can benefit society as a whole.

在化学领域，术语不稳定化合物指的是在某些条件下容易发生变化或分解的物质。这些化合物可能会快速反应，通常导致以热或光的形式释放能量。理解不稳定化合物对化学家至关重要，因为如果处理不当，它们可能会带来重大风险。例如，许多爆炸材料被归类为不稳定化合物，因为它们在暴露于热、冲击或摩擦时容易剧烈反应。对不稳定化合物的研究不仅增强了我们对化学反应的理解，还在各个行业中发挥着重要作用。例如，在制药行业，新药的开发通常涉及合成可能具有强效治疗效果的不稳定化合物。然而，这些化合物必须在安全使用之前进行稳定化。此外，环境科学领域经常遇到不稳定化合物。许多污染物本质上是不稳定的，这可能导致在生态系统中表现出不可预测的行为。例如，某些农药分解成不稳定化合物，可能会危害非目标物种并破坏当地生物多样性。这突显了监测和管理不稳定化合物的重要性，以减轻其对环境的不利影响。除了实际意义外，不稳定化合物还提出了有趣的理论挑战。化学家们努力理解其不稳定性的机制，以便准确预测其行为。这项研究可以导致发现具有理想特性的材料，例如能够加速反应速率而自身不变为不稳定化合物的催化剂。此外，不稳定化合物的概念超越了传统化学，延伸到材料科学和纳米技术等领域。研究人员正在探索如何创建可以在纳米尺度上自组装成复杂结构的不稳定化合物。这些创新可能会彻底改变新材料的开发，使其具有针对电子、医学和可再生能源的定制特性。总之，不稳定化合物是化学及相关学科中一个迷人且多面的研究领域。它们的变化倾向既带来了挑战，也提供了机会。随着我们继续探索不稳定化合物的性质和行为，我们解锁了技术进步和改进反应物安全处理的新可能性。对这些化合物的仔细研究不仅加深了我们对化学原理的理解，而且为未来的创新奠定了基础，这些创新可以使整个社会受益。