diethylamide

简明释义

英[/daɪˈɛθɪl.ə.maɪd/]美[/daɪˈɛθəˌlaɪd/]

二乙基胺

英英释义

单词用法

同义词

反义词

例句

1.Swiss scientist Albert Hofmann took an unexpected journey of the mind in April 1943 when he accidentally absorbed one of his chemical discoveries, lysergic acid diethylamide, through his fingertips.

1943年4月，瑞士科学家阿尔伯特·霍夫曼不小心在指尖粘了一点麦角酸二乙基酰胺，从而进行了一次意料之外的心灵之旅。

2.Swiss scientist Albert Hofmann took an unexpected journey of the mind in April 1943 when he accidentally absorbed one of his chemical discoveries, lysergic acid diethylamide, through his fingertips.

1943年4月，瑞士科学家阿尔伯特·霍夫曼不小心在指尖粘了一点麦角酸二乙基酰胺，从而进行了一次意料之外的心灵之旅。

3.1943 - First synthesis of LSD, lysergic acid diethylamide, by Albert Hoffman.

1943年的今天，阿尔伯特·霍夫曼首次合成出了LSD——麦角二乙酰胺。

4.The chemical structure of diethylamide is crucial for understanding its pharmacological effects.

理解二乙酰胺的化学结构对于理解其药理作用至关重要。

5.Researchers are studying the synthesis of diethylamide compounds for potential therapeutic applications.

研究人员正在研究二乙酰胺化合物的合成，以寻找潜在的治疗应用。

6.The use of diethylamide in certain pharmaceuticals has raised concerns about side effects.

在某些药物中使用二乙酰胺引发了对副作用的担忧。

7.A new study highlights the role of diethylamide in modulating neurotransmitter release.

一项新研究强调了二乙酰胺在调节神经递质释放中的作用。

8.In organic chemistry, diethylamide is often used as a reagent for various reactions.

在有机化学中，二乙酰胺常用作各种反应的试剂。

作文

In the realm of organic chemistry, one compound that has garnered attention is diethylamide. This term refers to a specific type of amide that contains two ethyl groups attached to the nitrogen atom. Understanding diethylamide is crucial for students and professionals alike, as it plays a significant role in various chemical reactions and applications. For instance, diethylamide is often used in the synthesis of pharmaceuticals. Its unique structure allows it to interact with different biological targets, making it a valuable component in drug development. The significance of diethylamide can be seen in its application in the production of lysergic acid diethylamide (LSD), a well-known psychedelic substance. LSD was first synthesized in the 1930s, and its effects on the human mind have been widely studied. The presence of the diethylamide group in LSD is what contributes to its potency and ability to affect serotonin receptors in the brain. This highlights how a seemingly simple compound can have profound implications in both science and society. Moreover, the study of diethylamide extends beyond just its chemical properties. It also raises important discussions about ethics and the use of certain compounds in medicine and recreational contexts. As researchers continue to explore the potential benefits and risks associated with diethylamide derivatives, it is essential to approach these topics with caution and responsibility. In addition to its pharmaceutical applications, diethylamide is also utilized in the field of agriculture. Certain pesticides and herbicides contain diethylamide structures, which help enhance their effectiveness against pests while minimizing harm to crops. This dual functionality demonstrates the versatility of diethylamide in various industries, showcasing its importance not only in chemistry but also in everyday life. Furthermore, the synthesis of diethylamide and its derivatives involves intricate chemical processes. Understanding these processes requires a solid foundation in organic chemistry principles, including reaction mechanisms and functional group transformations. Students studying chemistry must familiarize themselves with compounds like diethylamide to appreciate the complexity and beauty of chemical interactions. In conclusion, diethylamide is more than just a chemical term; it embodies a wealth of knowledge and applications that extend into multiple fields. From its role in drug synthesis and agricultural practices to its ethical implications, diethylamide serves as a reminder of the interconnectedness of chemistry with our daily lives. As we continue to expand our understanding of such compounds, it is crucial to remain aware of their potential impacts on health, society, and the environment. Through responsible research and application, we can harness the power of diethylamide to benefit humanity while mitigating any associated risks.

在有机化学领域，有一种化合物引起了人们的关注，即二乙酰胺。这个术语指的是一种特定类型的酰胺，包含两个乙基组连接到氮原子上。理解二乙酰胺对于学生和专业人士来说至关重要，因为它在各种化学反应和应用中发挥着重要作用。例如，二乙酰胺常用于药物的合成。其独特的结构使其能够与不同的生物靶标相互作用，使其成为药物开发中的宝贵组成部分。 二乙酰胺的重要性可以在其在麦角酸二乙酰胺（LSD）生产中的应用中得到体现，这是一种众所周知的迷幻物质。LSD于20世纪30年代首次合成，其对人类思想的影响已被广泛研究。二乙酰胺在LSD中的存在是导致其效力和影响大脑中血清素受体能力的原因。这突显出一个看似简单的化合物可以在科学和社会中产生深远的影响。 此外，二乙酰胺的研究不仅限于其化学性质。它还引发了关于伦理和某些化合物在医学和娱乐背景下使用的重要讨论。随着研究人员继续探索与二乙酰胺衍生物相关的潜在好处和风险，谨慎和负责任地处理这些主题是至关重要的。 除了在制药应用中的作用外，二乙酰胺还用于农业领域。某些杀虫剂和除草剂含有二乙酰胺结构，这有助于提高它们对害虫的有效性，同时最小化对作物的伤害。这种双重功能展示了二乙酰胺在各个行业中的多功能性，彰显了其在化学和日常生活中的重要性。 此外，二乙酰胺及其衍生物的合成涉及复杂的化学过程。理解这些过程需要扎实的有机化学原理基础，包括反应机制和官能团转化。学习化学的学生必须熟悉像二乙酰胺这样的化合物，以欣赏化学相互作用的复杂性和美丽。 总之，二乙酰胺不仅仅是一个化学术语；它体现了一系列知识和应用，延伸到多个领域。从其在药物合成和农业实践中的作用到其伦理含义，二乙酰胺提醒我们化学与我们日常生活的相互联系。随着我们继续扩展对这些化合物的理解，保持对其对健康、社会和环境潜在影响的意识至关重要。通过负责任的研究和应用，我们可以利用二乙酰胺的力量造福人类，同时减轻任何相关风险。