pyrroles
简明释义
吡咯类
英英释义
单词用法
吡咯衍生物 | |
取代吡咯 | |
基于吡咯的化合物 | |
含有吡咯的五元环 | |
合成吡咯类 | |
表征吡咯类 | |
分析吡咯类 | |
吡咯类表现出特性 |
同义词
反义词
烷烃 | 烷烃是具有单键的饱和烃。 | ||
芳香化合物 | 芳香化合物含有一个或多个苯环。 |
例句
1.Semiconductive polymers include polymers or copolymers derived from thiophenes, pyrroles, anilines, and polycyclic heteroaromatics.
半导体聚合物包括源自噻吩、吡咯、苯胺和多环杂芳族化合物的聚合物或共聚物。
2.Semiconductive polymers include polymers or copolymers derived from thiophenes, pyrroles, anilines, and polycyclic heteroaromatics.
半导体聚合物包括源自噻吩、吡咯、苯胺和多环杂芳族化合物的聚合物或共聚物。
3.Researchers are studying the properties of pyrroles 吡咯 to develop new pharmaceuticals.
研究人员正在研究吡咯的性质,以开发新药。
4.The synthesis of pyrroles 吡咯 can be achieved through various chemical reactions.
可以通过多种化学反应合成吡咯。
5.In organic chemistry, pyrroles 吡咯 are important due to their role in ring structures.
在有机化学中,吡咯因其在环结构中的作用而重要。
6.Certain dyes are made from pyrroles 吡咯, contributing to their vibrant colors.
某些染料是由吡咯制成的,使其颜色鲜艳。
7.The presence of pyrroles 吡咯 in a compound can affect its reactivity.
化合物中吡咯的存在可能会影响其反应性。
作文
Pyrroles are a fascinating class of organic compounds that play a significant role in various biological processes and have numerous applications in medicinal chemistry. These five-membered heterocyclic compounds contain a nitrogen atom in the ring structure, which is what distinguishes them from other similar compounds. The basic structure of a pyrrole (吡咯) consists of four carbon atoms and one nitrogen atom, arranged in a cyclic formation. This unique configuration allows pyrroles (吡咯) to exhibit a range of chemical properties that make them valuable in both natural and synthetic contexts. One of the most notable features of pyrroles (吡咯) is their ability to participate in various chemical reactions, including electrophilic substitution and oxidation. This reactivity is crucial for their role in the synthesis of complex molecules. For instance, many natural products, such as heme and chlorophyll, contain pyrrole (吡咯) units in their structures. Heme, which is essential for oxygen transport in blood, is composed of iron coordinated to a pyrrole (吡咯) ring system. This highlights the importance of pyrroles (吡咯) in biological systems. In addition to their biological significance, pyrroles (吡咯) have garnered attention in the field of materials science. Researchers have explored their potential in developing organic semiconductors, dyes, and polymers. The incorporation of pyrrole (吡咯) into polymeric materials can enhance their electrical conductivity and thermal stability, making them suitable for various electronic applications. Furthermore, the pharmaceutical industry has recognized the therapeutic potential of pyrroles (吡咯). Numerous drugs have been developed that incorporate pyrrole (吡咯) moieties, targeting a variety of diseases, including cancer and inflammation. The ability of pyrroles (吡咯) to interact with biological targets makes them promising candidates for drug discovery and development. Despite their potential, the synthesis of pyrroles (吡咯) can be challenging due to the need for specific reaction conditions and reagents. However, advances in synthetic methodologies have enabled chemists to create pyrroles (吡咯) more efficiently. Techniques such as microwave-assisted synthesis and palladium-catalyzed reactions have opened new avenues for the production of these compounds. In conclusion, pyrroles (吡咯) are an intriguing group of compounds with diverse applications in biology, materials science, and medicine. Their unique structure and reactivity make them essential in various fields of research and industry. As our understanding of pyrroles (吡咯) continues to grow, we can expect to see even more innovative uses for these remarkable compounds in the future.
吡咯是一类迷人的有机化合物,在各种生物过程中发挥着重要作用,并在药物化学中有许多应用。这些五元杂环化合物在环结构中含有一个氮原子,这使它们与其他类似化合物区别开来。吡咯的基本结构由四个碳原子和一个氮原子组成,呈环状排列。这种独特的构型使得吡咯能够展现出一系列的化学性质,使其在自然和合成环境中都具有价值。 吡咯最显著的特点之一是它们参与各种化学反应的能力,包括亲电取代和氧化。这种反应性对它们在复杂分子合成中的作用至关重要。例如,许多天然产物,如血红素和叶绿素,都在其结构中包含吡咯单元。血红素对氧气运输至关重要,由铁与吡咯环系配位组成。这突显了吡咯在生物系统中的重要性。 除了生物学意义外,材料科学领域也对吡咯产生了关注。研究人员探索了它们在开发有机半导体、染料和聚合物方面的潜力。将吡咯掺入聚合物材料中可以增强其电导率和热稳定性,使其适用于各种电子应用。 此外,制药行业也认识到了吡咯的治疗潜力。许多药物的开发都包含吡咯基团,针对各种疾病,包括癌症和炎症。吡咯与生物靶点相互作用的能力使其成为药物发现和开发的有前景候选者。 尽管有潜力,但合成吡咯可能具有挑战性,因为需要特定的反应条件和试剂。然而,合成方法的进步使化学家能够更有效地制造吡咯。微波辅助合成和钯催化反应等技术为这些化合物的生产开辟了新途径。 总之,吡咯是一组引人入胜的化合物,在生物学、材料科学和医学中具有多种应用。它们独特的结构和反应性使其在各个研究和工业领域中至关重要。随着我们对吡咯的理解不断加深,我们可以期待在未来看到这些非凡化合物的更多创新用途。
文章标题:pyrroles的意思是什么
文章链接:https://www.liuxue886.cn/danci/455584.html
本站文章均为原创,未经授权请勿用于任何商业用途
发表评论