benzofuran

简明释义

英[ˌbenzəʊˈfjʊəræn]美[ˈbenzɔːfrən]

n. 香豆酮

英英释义

单词用法

同义词

反义词

例句

1.Several new bis (1,2-dicarbonyl) compounds containing benzofuran or benzothiophene ring have been synthesized and identified by elemental analysis and Infra red spectroscopy.

本文首次合成了几种含苯并呋喃苯并噻吩环的新的芳香族四羰基化合物，并对它们进行了元素分析和红外光谱测定。

2.Several new bis (1,2-dicarbonyl) compounds containing benzofuran or benzothiophene ring have been synthesized and identified by elemental analysis and Infra red spectroscopy.

本文首次合成了几种含苯并呋喃苯并噻吩环的新的芳香族四羰基化合物，并对它们进行了元素分析和红外光谱测定。

3.The invention discloses a preparation method of a benzofuran ketones compound containing indoles substituent groups.

一种含吲哚类取代基的苯并呋喃酮类化合物的制造方法。

4.Furan, benzofuran, and vinyl acetate were classified as possibly carcinogenic to humans.

呋喃，苯并呋喃，醋酸乙烯酯被列为可能对人类致癌。

5.The compound benzofuran is often used in organic synthesis.

化合物苯并呋喃常用于有机合成。

6.Researchers are studying the effects of benzofuran derivatives on cancer cells.

研究人员正在研究苯并呋喃衍生物对癌细胞的影响。

7.In environmental chemistry, benzofuran can be a pollutant in certain industrial processes.

在环境化学中，苯并呋喃可能是某些工业过程中的污染物。

8.The medicinal properties of benzofuran have attracted significant attention from pharmaceutical companies.

由于其药用特性，苯并呋喃引起了制药公司的极大关注。

9.A new study has shown that benzofuran can inhibit specific enzymes.

一项新研究表明，苯并呋喃可以抑制特定酶的活性。

作文

Benzofuran is an organic compound that has garnered significant interest in the fields of chemistry and pharmacology. This compound, characterized by its fused benzene and furan rings, exhibits unique properties that make it valuable in various applications. The structure of benzofuran (苯并呋喃) allows it to participate in numerous chemical reactions, which can lead to the synthesis of other important compounds. Researchers have been exploring the potential of benzofuran (苯并呋喃) derivatives for their medicinal properties, particularly in the development of new drugs. The importance of benzofuran (苯并呋喃) in medicinal chemistry cannot be overstated. Many studies have shown that compounds containing the benzofuran (苯并呋喃) structure exhibit anti-inflammatory, anti-cancer, and anti-viral activities. For example, some benzofuran (苯并呋喃) derivatives have been identified as potential candidates for treating diseases such as cancer and HIV. This has led to a surge in research aimed at understanding how these compounds interact with biological systems. Moreover, the versatility of benzofuran (苯并呋喃) makes it an attractive target for synthetic chemists. The ability to modify its structure opens up a plethora of possibilities for creating new compounds with enhanced properties. By altering specific functional groups on the benzofuran (苯并呋喃) core, researchers can tailor the compound's reactivity and selectivity, paving the way for innovative therapeutic agents. In addition to its pharmaceutical significance, benzofuran (苯并呋喃) also plays a role in materials science. Certain benzofuran (苯并呋喃) derivatives have been investigated for their potential use in organic electronics and fluorescence applications. These compounds can be incorporated into organic light-emitting diodes (OLEDs) and other electronic devices due to their favorable electronic properties. The exploration of benzofuran (苯并呋喃) in this context highlights its multifunctionality and importance beyond traditional chemistry. Furthermore, the environmental implications of benzofuran (苯并呋喃) cannot be ignored. As researchers delve deeper into the chemical behavior of this compound, they are also assessing its environmental impact. Understanding the degradation pathways and toxicity of benzofuran (苯并呋喃) and its derivatives is crucial for ensuring safe usage and compliance with environmental regulations. This aspect of study emphasizes the need for responsible research practices in the development of benzofuran (苯并呋喃) based products. In conclusion, benzofuran (苯并呋喃) is a compound of great significance in various scientific domains. Its unique structural characteristics and versatile reactivity make it a focal point for research in medicinal chemistry, materials science, and environmental studies. As we continue to explore the potential of benzofuran (苯并呋喃), it is essential to approach this compound with a mindset geared towards innovation while being mindful of its environmental and health implications. The future of benzofuran (苯并呋喃) research holds promise, and it will undoubtedly contribute to advancements across multiple disciplines.

苯并呋喃是一种有机化合物，在化学和药理学领域引起了广泛关注。这个化合物的特征是它的苯环和呋喃环的融合结构，展现出独特的性质，使其在各种应用中具有价值。benzofuran（苯并呋喃）的结构使其能够参与许多化学反应，从而导致其他重要化合物的合成。研究人员一直在探索benzofuran（苯并呋喃）衍生物的潜力，特别是在新药开发方面。 在药物化学中，benzofuran（苯并呋喃）的重要性不容小觑。许多研究表明，含有benzofuran（苯并呋喃）结构的化合物表现出抗炎、抗癌和抗病毒活性。例如，一些benzofuran（苯并呋喃）衍生物已被确定为治疗癌症和HIV等疾病的潜在候选药物。这导致了对这些化合物如何与生物系统相互作用的研究激增。 此外，benzofuran（苯并呋喃）的多功能性使其成为合成化学家的一个有吸引力的目标。修改其结构的能力为创造具有增强特性的新的化合物打开了无数可能性。通过改变benzofuran（苯并呋喃）核心上的特定官能团，研究人员可以量身定制化合物的反应性和选择性，为创新治疗剂铺平道路。 除了其药物学意义外，benzofuran（苯并呋喃）在材料科学中也发挥着作用。某些benzofuran（苯并呋喃）衍生物已被研究用于有机电子和荧光应用。这些化合物可以因其良好的电子特性而被纳入有机发光二极管（OLED）和其他电子设备中。在这种背景下对benzofuran（苯并呋喃）的探索突显了其多功能性及其在传统化学之外的重要性。 此外，benzofuran（苯并呋喃）的环境影响也不容忽视。随着研究人员深入研究该化合物的化学行为，他们还在评估其环境影响。理解benzofuran（苯并呋喃）及其衍生物的降解途径和毒性对于确保安全使用和遵守环境法规至关重要。这一研究方面强调了在开发基于benzofuran（苯并呋喃）产品时需要负责任的研究实践。 总之，benzofuran（苯并呋喃）在各个科学领域都具有重要意义。其独特的结构特征和多样的反应性使其成为药物化学、材料科学和环境研究的研究焦点。随着我们继续探索benzofuran（苯并呋喃）的潜力，必须以创新为导向，同时关注其环境和健康影响。benzofuran（苯并呋喃）研究的未来充满希望，毫无疑问，它将为多个学科的进步做出贡献。