organometallics
简明释义
英[ˌɔrɡənəˈmɛtəlɪks]美[ˌɔrɡənəˈmɛtəlɪks]
n. 有机金属化合物
英英释义
单词用法
同义词
金属有机化合物 | 金属有机化合物广泛用于催化反应。 | ||
有机金属化合物 | Organometallic compounds play a crucial role in organic synthesis. | 有机金属化合物在有机合成中起着至关重要的作用。 |
反义词
无机化合物 | 无机化合物通常用于肥料中。 | ||
非金属化合物 | Nonmetallics like sulfur and phosphorus play crucial roles in various chemical processes. | 像硫和磷这样的非金属在各种化学过程中发挥着重要作用。 |
例句
1.Research on ferrocene derivatives is a hot work in organometallics chemistry, structure chemistry and material science.
二茂铁衍生物是近年来有机金属化学、结构化学和材料科学等学科领域的研究热点。
2.Research on ferrocene derivatives is a hot work in organometallics chemistry, structure chemistry and material science.
二茂铁衍生物是近年来有机金属化学、结构化学和材料科学等学科领域的研究热点。
3.At Takachiho, we supply various organometallics for compound semiconductors and silicon-based semiconductors.
在高千穗,我们供应化合物半导体以及硅派半导体使用的有机金属材料。
4.Organozincs are an important class of organometallics for the formation of C-C bonds.
有机锌试剂与羰基化合物的反应在有机合成中是形成碳-碳键的一种重要的方法。
5.The field of organometallics 有机金属化合物 has revolutionized modern chemistry.
有机金属化合物的领域彻底改变了现代化学。
6.Researchers are exploring new applications of organometallics 有机金属化合物 in catalysis.
研究人员正在探索有机金属化合物在催化中的新应用。
7.Many pharmaceutical companies utilize organometallics 有机金属化合物 for drug development.
许多制药公司利用有机金属化合物进行药物开发。
8.The synthesis of organometallics 有机金属化合物 often requires precise control of reaction conditions.
有机金属化合物的合成通常需要精确控制反应条件。
9.In organic synthesis, organometallics 有机金属化合物 serve as crucial intermediates.
在有机合成中,有机金属化合物作为关键中间体。
作文
The field of chemistry is vast and diverse, encompassing various branches that study different aspects of matter and its interactions. One intriguing area within this discipline is the study of organometallics, which refers to the compounds that contain at least one bond between a carbon atom of an organic molecule and a metal. These compounds have gained significant attention due to their unique properties and wide-ranging applications in both academia and industry. Organometallics play a crucial role in catalysis, a process that accelerates chemical reactions. Many industrial processes rely on catalysts to increase efficiency and reduce energy consumption. For instance, the use of organometallics in catalytic converters has made it possible to convert harmful gases from automobile exhaust into less toxic substances, significantly reducing pollution. This application highlights the importance of organometallics in environmental protection and sustainable development. In addition to their role in catalysis, organometallics are also essential in the field of materials science. They are used to create new materials with tailored properties for specific applications. For example, organometallic compounds can be utilized in the production of advanced polymers, which are materials characterized by their durability and versatility. These polymers can be found in various everyday products, ranging from packaging materials to automotive components. The pharmaceutical industry has also benefited from the study of organometallics. Many drugs incorporate metal-containing compounds that enhance their efficacy and bioavailability. Researchers are continually exploring new organometallics to develop innovative therapies for diseases such as cancer. The ability of certain organometallics to selectively target cancer cells while minimizing damage to healthy cells is a promising avenue for future drug development. Moreover, the synthesis of organometallics presents unique challenges and opportunities for chemists. The reactivity of these compounds often allows for the creation of complex molecules through various synthetic pathways. This aspect of organometallics has led to the discovery of novel chemical reactions that were previously unknown, expanding the toolkit available to synthetic chemists. Despite their advantages, working with organometallics requires careful handling due to their potential toxicity and reactivity. Safety protocols are essential when conducting experiments involving these compounds, ensuring that researchers can explore their properties without compromising their health or safety. This emphasis on safety reflects the broader responsibility chemists have in conducting research that is not only innovative but also ethical and safe. In conclusion, organometallics represent a fascinating intersection of organic chemistry and metal science, providing valuable insights and applications across various fields. From catalysis and materials science to pharmaceuticals, the impact of organometallics is profound and far-reaching. As research continues to evolve, the potential for new discoveries and innovations in this area remains promising, underscoring the importance of understanding and mastering the principles behind organometallics in modern chemistry. Their unique characteristics and versatile applications make them a vital topic of study for both current and future chemists.
化学领域广阔而多样,涵盖了研究物质及其相互作用的不同分支。其中一个引人入胜的领域是有机金属化合物的研究,它指的是至少含有一个有机分子碳原子与金属之间的键的化合物。由于其独特的性质和在学术界和工业中的广泛应用,这些化合物受到了广泛关注。 有机金属化合物在催化中扮演着至关重要的角色,催化是一种加速化学反应的过程。许多工业过程依赖催化剂来提高效率并减少能量消耗。例如,催化转化器中使用有机金属化合物使得将汽车排气中的有害气体转化为较少毒性的物质成为可能,从而显著减少污染。这一应用突显了有机金属化合物在环境保护和可持续发展中的重要性。 除了在催化中的作用外,有机金属化合物在材料科学领域也至关重要。它们用于创造具有特定应用所需特性的新的材料。例如,有机金属化合物可以用于先进聚合物的生产,这些材料以其耐用性和多功能性为特征。这些聚合物可以在各种日常产品中找到,从包装材料到汽车零部件。 制药行业也从对有机金属化合物的研究中受益。许多药物包含金属含量的化合物,以增强其疗效和生物利用度。研究人员不断探索新的有机金属化合物,以开发针对癌症等疾病的创新疗法。某些有机金属化合物能够选择性地靶向癌细胞,同时最小化对健康细胞的损害,这为未来的药物开发提供了有希望的途径。 此外,合成有机金属化合物为化学家提出了独特的挑战和机会。这些化合物的反应性往往允许通过各种合成途径创建复杂的分子。有机金属化合物的这一特点导致了以前未知的新化学反应的发现,扩展了合成化学家可用的工具包。 尽管有其优势,但处理有机金属化合物需要小心,因为它们可能具有毒性和反应性。在进行涉及这些化合物的实验时,安全协议是必不可少的,确保研究人员能够探索其特性而不危害自身健康或安全。这种对安全的重视反映了化学家在进行创新研究时不仅要具备创造性,还要具备伦理和安全的更广泛责任。 总之,有机金属化合物代表了有机化学与金属科学的迷人交汇点,在各个领域提供了宝贵的见解和应用。从催化和材料科学到制药,有机金属化合物的影响深远且广泛。随着研究的不断发展,这一领域的新发现和创新潜力仍然令人期待,强调了理解和掌握现代化学中有机金属化合物背后原则的重要性。它们独特的特性和多样的应用使其成为当前和未来化学家必须研究的重要主题。
文章标题:organometallics的意思是什么
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