trimolecular
简明释义
英[ˌtraɪməˈlekjʊlə(r)]美[ˌtraɪməˈlekjələr]
三分子的
英英释义
与三个分子相关或涉及三个分子的。 |
单词用法
三分子动力学 | |
三分子结合 | |
三分子机制 | |
三分子相互作用 |
同义词
三分子 | The trimolecular reaction involves three molecules interacting simultaneously. | 三分子反应涉及三种分子的同时相互作用。 | |
三聚体的 | Trimeric proteins can play crucial roles in cellular functions. | 三聚体蛋白在细胞功能中可以发挥关键作用。 |
反义词
例句
1."I bet... we're going to be able to - in many different ways - target this trimolecular complex, and hopefully develop a very specific and safe therapy," he said.
他说:“我打赌……我们会用许多不同的方式——瞄准这个分子复合物,并希望建立一个非常具体和安全的治疗。”
2."I bet... we're going to be able to - in many different ways - target this trimolecular complex, and hopefully develop a very specific and safe therapy," he said.
他说:“我打赌……我们会用许多不同的方式——瞄准这个分子复合物,并希望建立一个非常具体和安全的治疗。”
3.The study focused on a trimolecular reaction mechanism that involves three different molecules interacting simultaneously.
该研究集中于一种三分子反应机制,涉及三个不同的分子同时相互作用。
4.In biochemistry, understanding trimolecular interactions can help in designing better drugs.
在生物化学中,理解三分子相互作用有助于设计更好的药物。
5.The trimolecular process is crucial for the synthesis of certain complex organic compounds.
该三分子过程对某些复杂有机化合物的合成至关重要。
6.Researchers discovered a novel trimolecular complex that enhances catalytic efficiency.
研究人员发现了一种新型的三分子复合物,能够提高催化效率。
7.The kinetics of the trimolecular reaction were studied under various temperature conditions.
在不同温度条件下研究了三分子反应的动力学。
作文
In the realm of chemistry, reactions can be classified based on the number of molecules involved. One such classification is the term trimolecular, which refers to a reaction that involves three separate molecules colliding and interacting to form products. Understanding trimolecular reactions is crucial for chemists as they delve into the complexities of chemical kinetics and mechanisms. These reactions are relatively rare compared to unimolecular and bimolecular reactions due to the specific conditions required for three molecules to collide simultaneously with the correct orientation and energy. The importance of trimolecular reactions can be observed in various chemical processes, particularly in atmospheric chemistry and combustion reactions. For example, consider the reaction involving ozone (O3) in the atmosphere, where it interacts with other molecules to produce different species. This process often requires the involvement of multiple molecules, illustrating the significance of trimolecular interactions in environmental chemistry. Moreover, the study of trimolecular reactions offers insights into reaction mechanisms and the factors that influence reaction rates. Chemists utilize collision theory to explain how molecules must collide with sufficient energy and proper orientation to react. In the case of trimolecular reactions, the probability of three molecules colliding at the same time is significantly lower than that of two molecules. Therefore, these reactions often occur under specific conditions, such as high pressure or concentration, to increase the likelihood of successful collisions. In practical applications, understanding trimolecular reactions can lead to advancements in fields such as catalysis and materials science. For instance, catalysts may be designed to facilitate trimolecular reactions by providing an environment that enhances the chances of three molecules coming together. This can lead to more efficient chemical processes, ultimately benefiting industries ranging from pharmaceuticals to energy production. Furthermore, the exploration of trimolecular reactions contributes to our understanding of molecular interactions and the development of new chemical theories. Researchers continuously strive to uncover the intricacies of these reactions, employing advanced techniques such as spectroscopy and computational chemistry to study the dynamics of molecular collisions. By doing so, they aim to predict and control the outcomes of trimolecular processes, paving the way for innovative solutions to complex chemical challenges. In conclusion, the concept of trimolecular reactions is a fundamental aspect of chemical kinetics that underscores the intricate nature of molecular interactions. While these reactions are less common than their unimolecular and bimolecular counterparts, their significance in various scientific fields cannot be overlooked. As researchers continue to investigate the mechanisms and influences surrounding trimolecular reactions, they contribute to a deeper understanding of chemistry as a whole, fostering advancements that can lead to practical applications in technology and industry.
在化学领域,反应可以根据参与的分子数量进行分类。其中一个分类是术语trimolecular,指的是涉及三个独立分子碰撞并相互作用以形成产物的反应。理解trimolecular反应对化学家来说至关重要,因为他们深入研究化学动力学和机制的复杂性。这些反应与单分子(unimolecular)和双分子(bimolecular)反应相比相对较为罕见,因为需要特定条件使得三个分子能够同时以正确的方向和能量碰撞。 trimolecular反应的重要性可以在各种化学过程中观察到,特别是在大气化学和燃烧反应中。例如,考虑臭氧(O3)在大气中的反应,它与其他分子相互作用生成不同的物质。这个过程通常需要多个分子的参与,说明了trimolecular相互作用在环境化学中的重要性。 此外,研究trimolecular反应提供了对反应机制和影响反应速率的因素的见解。化学家利用碰撞理论来解释分子必须以足够的能量和适当的方向碰撞才能发生反应。在trimolecular反应的情况下,三种分子同时碰撞的概率显著低于两种分子。因此,这些反应通常在特定条件下发生,例如高压或高浓度,以增加成功碰撞的可能性。 在实际应用中,理解trimolecular反应可以推动催化和材料科学等领域的发展。例如,可以设计催化剂来促进trimolecular反应,通过提供一种增强三种分子聚集机会的环境。这可以导致更高效的化学过程,最终惠及制药、能源生产等行业。 此外,探索trimolecular反应有助于我们理解分子相互作用和新化学理论的发展。研究人员不断努力揭示这些反应的复杂性,采用先进技术如光谱学和计算化学来研究分子碰撞的动态。通过这样做,他们旨在预测和控制trimolecular过程的结果,为解决复杂化学挑战提供创新解决方案。 总之,trimolecular反应的概念是化学动力学的一个基本方面,突显了分子相互作用的复杂性。虽然这些反应不如单分子和双分子反应常见,但它们在各个科学领域的重要性不容忽视。随着研究人员继续调查trimolecular反应周围的机制和影响,他们为更深入理解整体化学作出了贡献,促进了可在技术和工业中应用的进步。
文章标题:trimolecular的意思是什么
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