phenylamine
简明释义
英[ˌfenələˈmiːn]美[ˈfenələˈmiːn]
n. [有化]苯胺(等于 aniline)
英英释义
Phenylamine is an organic compound that consists of a phenyl group attached to an amine group, commonly known as aniline. | 苯胺是一种有机化合物,由一个苯基与一个胺基连接而成,通常被称为苯胺。 |
单词用法
苯胺衍生物 | |
苯胺合成 | |
苯胺反应 | |
用作试剂 | |
生产苯胺 | |
在苯胺存在下 |
同义词
| 苯胺 | Aniline is commonly used in the production of dyes and plastics. | 苯胺通常用于染料和塑料的生产。 | |
| 氨基苯 | Aminobenzene can be found in various chemical synthesis processes. | 氨基苯可以在各种化学合成过程中找到。 |
反义词
| 酚 | 酚用于生产塑料和树脂。 | ||
| 烷基胺 | Alkylamines are commonly used as intermediates in the synthesis of pharmaceuticals. | 烷基胺通常用作制药合成的中间体。 |
例句
1.The effective phenylamine degrading strain is applied to high-concentration phenylamine waste water treatment or phenylamine pollution incident emergency treatment.
应用于高浓度苯胺废水处理或苯胺突发污染事故应急处理。
2.In this paper, a natural hair dye is studied, which mainly contains organic compound of plant without toxic lead and phenylamine sensitizer.
针对传统染发剂的毒性及刺激性,本文研制一种不含有毒铅,不含苯胺类致敏物,而含属于植物构分的有机化合物的天然型染发。
3.OBJECTIVE To synthesize and select novel derivatives of salicylaldehyde-phenylamine Schiff base with high insecticidal activity against the Fascila hepatica.
目的合成并筛选出生物活性较好的新型抗肝片吸虫病化合物。
4.The effective phenylamine degrading strain is applied to high-concentration phenylamine waste water treatment or phenylamine pollution incident emergency treatment.
应用于高浓度苯胺废水处理或苯胺突发污染事故应急处理。
5.The presence of phenylamine in the sample indicates a potential contamination.
样品中存在苯胺表明可能存在污染。
6.In the lab, we synthesized phenylamine from aniline derivatives.
在实验室,我们从苯胺衍生物合成了苯胺。
7.The toxicity of phenylamine makes it important to handle with care.
苯胺的毒性使得小心处理变得重要。
8.The chemical structure of phenylamine is essential for understanding its reactivity.
理解其反应性,苯胺的化学结构是必不可少的。
9.Researchers are studying the effects of phenylamine on plant growth.
研究人员正在研究苯胺对植物生长的影响。
作文
Phenylamine, also known as aniline, is an organic compound that plays a significant role in various chemical processes and industries. It is characterized by a phenyl group attached to an amino group, making it an important building block in the synthesis of many compounds. The formula for phenylamine is C6H5NH2, and its structure consists of a benzene ring with an amine group. Understanding phenylamine is crucial for students and professionals in chemistry, as it serves as a precursor for dyes, plastics, and pharmaceuticals.One of the most notable applications of phenylamine (苯胺) is in the dye industry. It is used to produce a variety of synthetic dyes that are essential for coloring textiles, food, and even cosmetics. The ability to create vibrant colors from phenylamine (苯胺) derivatives has revolutionized the way we perceive and utilize color in our daily lives. For instance, the production of azo dyes, which are widely used due to their bright hues and stability, often begins with phenylamine (苯胺). This process highlights the compound's importance in industrial chemistry.In addition to its role in dye manufacturing, phenylamine (苯胺) is also integral in the production of rubber chemicals. The rubber industry relies on phenylamine (苯胺) to enhance the properties of rubber products, making them more durable and resistant to wear. The use of phenylamine (苯胺) in this context showcases its versatility and significance in material science.Pharmaceuticals also benefit greatly from phenylamine (苯胺). Many drugs are synthesized using phenylamine (苯胺) as a starting material. For example, certain analgesics and antibiotics are derived from phenylamine (苯胺), demonstrating its vital role in healthcare. The ability to modify the structure of phenylamine (苯胺) allows chemists to develop new medications with specific therapeutic effects, which can lead to improved patient outcomes.However, it is essential to handle phenylamine (苯胺) with care, as it can be toxic and pose health risks if not managed properly. Exposure to phenylamine (苯胺) can lead to various health issues, including skin irritation and potential carcinogenic effects. This necessitates strict safety protocols in laboratories and industrial settings where phenylamine (苯胺) is used. Proper protective equipment and ventilation systems are crucial to ensure the safety of workers dealing with this compound.In conclusion, phenylamine (苯胺) is a fundamental compound in organic chemistry with extensive applications across multiple industries. Its contributions to dye production, rubber manufacturing, and pharmaceuticals underscore its importance in modern society. As we continue to explore the potential of phenylamine (苯胺) and its derivatives, it is imperative to prioritize safety and environmental considerations in its use. The future of phenylamine (苯胺) in chemical research and application remains promising, opening doors to innovations that can enhance our quality of life.
苯胺,也称为苯胺,是一种有机化合物,在各种化学过程和工业中发挥着重要作用。它的特点是一个苯基与一个氨基相连,使其成为许多化合物合成的重要基础。苯胺的化学式为C6H5NH2,其结构由一个苯环和一个胺基组成。理解苯胺对于化学专业的学生和专业人士至关重要,因为它是染料、塑料和制药的前体。苯胺在染料工业中的应用尤为显著。它被用于生产各种合成染料,这些染料对纺织品、食品甚至化妆品的着色至关重要。从苯胺衍生出的色彩鲜艳的染料改变了我们在日常生活中对颜色的感知和利用。例如,偶氮染料的生产——由于其明亮的色调和稳定性而广泛使用——通常以苯胺为起点。这一过程突显了该化合物在工业化学中的重要性。除了在染料制造中的作用外,苯胺在橡胶化学品的生产中也至关重要。橡胶工业依赖苯胺来增强橡胶产品的性能,使其更加耐用和抗磨损。在这个背景下,苯胺的使用展示了它在材料科学中的多功能性和重要性。制药行业也极大地受益于苯胺。许多药物是以苯胺为起始材料合成的。例如,某些镇痛药和抗生素是从苯胺衍生而来的,证明了它在医疗保健中的重要作用。通过修改苯胺的结构,化学家能够开发出具有特定治疗效果的新药物,从而改善患者的治疗效果。然而,必须小心处理苯胺,因为如果不妥善管理,它可能会有毒并带来健康风险。接触苯胺可能导致各种健康问题,包括皮肤刺激和潜在的致癌效应。这就需要在实验室和工业环境中严格遵守安全协议,以确保处理这种化合物的工人的安全。适当的防护设备和通风系统对于确保工作人员的安全至关重要。总之,苯胺是有机化学中的一种基本化合物,广泛应用于多个行业。它在染料生产、橡胶制造和制药方面的贡献突显了其在现代社会中的重要性。随着我们继续探索苯胺及其衍生物的潜力,优先考虑安全和环境因素在其使用中是至关重要的。苯胺在化学研究和应用中的未来仍然充满希望,为改善我们的生活质量开辟了创新的道路。
