chromene

简明释义

[ˈkrəʊmiːn][ˈkroʊmin]

[有化] 苯并吡喃

[有化] 色烯

英英释义

Chromene is a bicyclic compound consisting of a benzene ring fused to a pyran ring, typically used in organic chemistry and as a building block in the synthesis of various natural products.

Chromene是一种双环化合物,由一个苯环与一个吡喃环融合而成,通常用于有机化学,并作为合成各种天然产物的构建块。

单词用法

chromene derivatives

Chromene衍生物

chromene compounds

Chromene化合物

natural chromenes

天然chromenes

chromene structure

Chromene结构

synthesis of chromenes

Chromenes的合成

chromene-based materials

基于chromene的材料

同义词

benzopyran

苯并吡喃

Benzopyrans are a class of compounds that include chromene and are often studied for their biological activities.

苯并吡喃是一类化合物,包括色烯,通常用于研究其生物活性。

chromanol

色烯醇

Chromanol derivatives have been investigated for their antioxidant properties.

色烯醇衍生物已被研究其抗氧化特性。

反义词

inorganic compound

无机化合物

Inorganic compounds do not contain carbon-hydrogen bonds.

无机化合物不含有碳-氢键。

non-aromatic compound

非芳香化合物

Non-aromatic compounds usually lack the stability associated with aromatic systems.

非芳香化合物通常缺乏与芳香系统相关的稳定性。

例句

1.Another reported Chromene derivatives can strongly inhibit tubulin aggregation and play an efficient role against cancer.

另外有报道色烯类衍生物可以强烈的抑制微管蛋白聚合,从而发挥抗癌作用。

2.Another reported Chromene derivatives can strongly inhibit tubulin aggregation and play an efficient role against cancer.

另外有报道色烯类衍生物可以强烈的抑制微管蛋白聚合,从而发挥抗癌作用。

3.Researchers discovered that certain chromene 克罗梅烯 compounds exhibit strong antioxidant properties.

研究人员发现某些chromene克罗梅烯化合物表现出强抗氧化特性。

4.The natural product was identified as a novel chromene 克罗梅烯 with unique chemical properties.

该天然产物被鉴定为一种新型chromene克罗梅烯,具有独特的化学性质。

5.In organic chemistry, chromene 克罗梅烯 is often used as a building block for more complex molecules.

在有机化学中,chromene克罗梅烯常用作更复杂分子的构建块。

6.The fluorescence of the chromene 克罗梅烯 derivative made it useful in dye applications.

chromene克罗梅烯衍生物的荧光使其在染料应用中非常有用。

7.The study focused on the synthesis of new derivatives of chromene 克罗梅烯 for potential pharmaceutical applications.

该研究集中在新衍生物的合成上,这些衍生物是为潜在的药物应用而设计的chromene克罗梅烯

作文

In the realm of organic chemistry, the study of various compounds leads to a deeper understanding of their structures and applications. One such compound is chromene, which is an important class of organic molecules. Chromene refers to a bicyclic compound that consists of a benzene ring fused to a pyran ring. This unique structure gives chromene its distinctive properties and makes it a subject of interest in various fields, including medicinal chemistry and materials science.The significance of chromene lies in its diverse range of biological activities. Research has shown that several derivatives of chromene exhibit anti-inflammatory, antioxidant, and anticancer properties. For instance, certain chromene derivatives have been found to inhibit the proliferation of cancer cells, suggesting that they could be potential candidates for developing new cancer therapies. This highlights the importance of studying chromene and its derivatives in the quest for novel medicinal compounds.Moreover, chromene and its derivatives are also utilized in the field of materials science. They can be incorporated into polymers and other materials to enhance their properties. The photophysical properties of chromene make it suitable for use in organic light-emitting diodes (OLEDs) and other optoelectronic devices. This versatility demonstrates how a single compound like chromene can bridge multiple disciplines and contribute to advancements in technology.In addition to its practical applications, the synthesis of chromene is a fascinating topic in organic chemistry. Various synthetic methods have been developed to create chromene and its derivatives, including cyclization reactions and multicomponent reactions. These synthetic pathways often involve the use of catalysts and specific reaction conditions to achieve high yields and selectivity. Understanding these methods not only enhances our knowledge of chromene but also improves our overall skills in organic synthesis.Furthermore, the study of chromene extends beyond its chemical properties; it also encompasses its role in natural products. Many plants produce chromene derivatives as secondary metabolites, which play crucial roles in plant defense mechanisms and interactions with pollinators. The exploration of these natural chromene compounds can lead to discoveries in phytochemistry and the development of natural product-based pharmaceuticals.In conclusion, chromene is more than just a simple organic compound; it is a versatile molecule with significant implications in various scientific fields. From its biological activities to its applications in materials science and its relevance in natural products, the study of chromene opens up numerous avenues for research and innovation. As we continue to explore the complexities of organic chemistry, chromene will undoubtedly remain a focal point for scientists seeking to harness its potential for the betterment of society. The ongoing research into chromene and its derivatives promises to yield exciting discoveries that could lead to breakthroughs in medicine and technology, emphasizing the importance of this remarkable compound in our world.

Chromene 是有机化学中的一个重要类化合物,指的是一种由苯环与呋喃环融合而成的双环化合物。这个独特的结构赋予了chromene其独特的性质,使其在医药化学和材料科学等多个领域引起了人们的关注。Chromene 的重要性在于其多种生物活性。研究表明,某些chromene衍生物具有抗炎、抗氧化和抗癌特性。这表明,chromene及其衍生物在开发新型癌症疗法方面可能是潜在的候选者。此外,chromene及其衍生物还被广泛应用于材料科学领域,能够增强聚合物和其他材料的性能。Chromene 的光物理特性使其适合用于有机发光二极管(OLED)和其他光电设备。Chromene 的合成也是有机化学中一个引人入胜的话题,许多合成方法已经被开发出来,以创造chromene及其衍生物。最后,chromene在自然产品中的作用也不容忽视,许多植物会产生chromene衍生物作为次级代谢产物,发挥重要的植物防御机制。总之,chromene不仅仅是一个简单的有机化合物,它还是一个多功能分子,在多个科学领域具有重要的意义。