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相关概念视频

Physical Properties of Amines01:26

Physical Properties of Amines

3.1K
Amines with low molecular weight are usually gaseous at room temperature, while those with high molecular weight are liquid or solids in nature. Usually, low molecular weight amines have a rotten fish-like smell. Diamines typically have a pungent smell. For instance, cadaverine and putrescine, depicted in Figure 1, are two molecules responsible for decaying tissue.
3.1K
Preparation of Amines: Alkylation of Ammonia and Amines01:30

Preparation of Amines: Alkylation of Ammonia and Amines

3.3K
Alkylation is one of the methods used to prepare amines. Direct alkylation of ammonia or a primary amine with an alkyl halide gives polyalkylated amines along with a quaternary ammonium salt through successive SN2 reactions. This process of making the quaternary salt through the direct alkylation method is called exhaustive alkylation.
Each alkylation step makes the nitrogen center more nucleophilic, which triggers successive alkylations until a quaternary ammonium salt is formed. Considering...
3.3K
Basicity of Heterocyclic Aromatic Amines01:25

Basicity of Heterocyclic Aromatic Amines

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Heterocyclic amines, where the N atom is a part of an alicyclic system, are similar in basicity to alkylamines. Interestingly, the heterocyclic amine having a nitrogen atom as part of an aromatic ring has much less basicity than its corresponding alicyclic counterpart. For this reason, as presented in Figure 1, piperidine (pKb = 2.8) is significantly more basic than pyridine (pKb = 8.8).
6.0K
Amines to Amides: Acylation of Amines01:19

Amines to Amides: Acylation of Amines

2.4K
Various carboxylic acid derivatives (such as acid chlorides, esters, and anhydrides) can be used for the acylation of amines to yield amides. The reaction requires two equivalents of amines. The first amine molecule functions as a nucleophile and attacks the carbonyl carbon to produce a tetrahedral intermediate. This is followed by the loss of the leaving group and restoration of the C=O bond.
Next, the second equivalent of amine serves as a Brønsted base and deprotonates the quaternary...
2.4K
Amines: Introduction01:07

Amines: Introduction

4.4K
Amines are organic derivatives of ammonia. They are formed by replacing one or more ammonia protons with alkyl or aryl groups. Depending upon the number of organyl groups bonded to nitrogen, amines are classified as primary, secondary, or tertiary. Primary amines have one organyl group attached to the nitrogen atom, while secondary and tertiary amines have two and three organyl groups attached to the nitrogen atom, respectively.
4.4K
Preparation of 1° Amines: Gabriel Synthesis01:28

Preparation of 1° Amines: Gabriel Synthesis

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Direct alkylation is not a suitable method for synthesizing amines because it produces polyalkylated products. Gabriel synthesis is the most preferred method to exclusively make primary amines. The method uses phthalimide, which contains a protected form of nitrogen that participates in alkylation only once to predominantly give primary amines.
Strong bases like NaOH or KOH deprotonate the phthalimide to form the corresponding anion, which acts as a nucleophile. Further, the anion attacks an...
3.5K

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Extraction of Non-Protein Amino Acids from Cyanobacteria for Liquid Chromatography-Tandem Mass Spectrometry Analysis
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从来源到地表水中追踪芳香氨基.

Özge Edebali1, Simona Krupčíková1, Anna Goellner2

  • 1RECETOX, Masaryk University, Faculty of Science, Kotlářská 2, 611 37 Brno, Czechia.

Environmental science & technology letters
|May 20, 2024
PubMed
概括
此摘要是机器生成的。

芳香胺 (AAs) 是在工业和家庭环境中发现的环境污染物,对水生生物构成风险. 本综述强调了它们的来源,环境命运和检测方法,强调了需要进一步研究的必要性.

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科学领域:

  • 环境化学环境化学
  • 毒理学 毒理学 毒理学
  • 分析化学 分析化学

背景情况:

  • 芳香胺 (AAs) 是具有潜在致癌和致癌效应的环境污染物.
  • 它们有助于工业废水的基因毒性,并对水生生物表现出急性毒性.
  • 目前关于国内来源,室内发生和AA的环境命运的现有数据仍然不完整.

研究的目的:

  • 审查芳香胺 (AAs) 的环境发生和命运.
  • 确定主要的国内AAs来源,包括香烟烟雾和烤肉食品.
  • 评估非工业来源对AA的整体环境负担的重要性.

主要方法:

  • 审查有关芳香胺的现有文献.
  • 采样技术描述:铜-氨酸三硫酸盐材料,固相提取中的XAD树脂和固相微提取.
  • 在家用废水和室内环境中分析AA的存在.

主要成果:

  • 芳香胺存在于工业废水,家庭环境 (例如,从香烟烟雾,烧烤食品) 和水生基质中.
  • 非工业来源对AA的整体环境负载有所贡献.
  • 特定的采样技术可以提供有关AA来源,运输和命运的见解.

结论:

  • 在了解家用废水和室内环境中AA的来源,运输和命运方面的差距,阻碍了有效预防不良影响.
  • 对AA及其环境行为的进一步研究对于全面的风险评估至关重要.
  • 评估非工业来源对于管理AA的环境影响至关重要.