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相关概念视频

Acid Strength and Molecular Structure03:05

Acid Strength and Molecular Structure

Binary Acids and Bases
In the absence of any leveling effect, the acid strength of binary compounds of hydrogen with nonmetals (A) increases as the H-A bond strength decreases down a group in the periodic table. For group 17, the order of increasing acidity is HF < HCl < HBr < HI. Likewise, for group 16, the order of increasing acid strength is H2O < H2S < H2Se < H2Te. Across a row in the periodic table, the acid strength of binary hydrogen compounds increases with increasing...
Acidity and Basicity of Carboxylic Acid Derivatives01:25

Acidity and Basicity of Carboxylic Acid Derivatives

Carboxylic acids are the strongest among organic acids, as they readily lose the hydroxyl proton to form a resonance-stabilized carboxylate ion. In comparison, the acid derivatives lack acidic hydrogens directly attached to a functional group. In these compounds, the acidic nature arises from their ability to lose α hydrogens, making them weakly acidic.
The relative acidic strength of the derivatives can be explained based on the extent of resonance stabilization of the conjugate base. The...
Acid Halides to Carboxylic Acids: Hydrolysis01:01

Acid Halides to Carboxylic Acids: Hydrolysis

Hydrolysis of acid halides is a nucleophilic acyl substitution reaction in which acid halides react with water to give carboxylic acids. The reaction occurs readily and does not require acid or a base catalyst.
As shown below, the mechanism involves a nucleophilic attack by water at the carbonyl carbon to form a tetrahedral intermediate. This is followed by the reformation of the carbon–oxygen π bond along with the departure of a halide ion. A final proton transfer step yields carboxylic acid...
Acid Halides to Amides: Aminolysis01:07

Acid Halides to Amides: Aminolysis

Aminolysis is a nucleophilic acyl substitution reaction, where ammonia or amines act as nucleophiles to give the substitution product. Acid halides react with ammonia, primary amines, and secondary amines to yield primary, secondary, and tertiary amides, respectively.
In the first step of the aminolysis mechanism, the amine attacks the carbonyl carbon of the acyl chloride to form a tetrahedral intermediate. In the second step, the carbonyl group is re-formed with the elimination of a chloride...
Acid Halides to Ketones: Gilman Reagent01:14

Acid Halides to Ketones: Gilman Reagent

Lithium dialkyl cuprate, also known as Gilman reagents, selectively reduces acid halides to ketones. The acid chloride is treated with Gilman reagent at −78 °C in the presence of ether solution to produce a ketone in good yield.
As shown below, the mechanism proceeds in two steps. First, one of the alkyl groups of the reagent acts as a nucleophile and attacks the acyl carbon of the acid chloride to form a tetrahedral intermediate. This is followed by the reformation of the carbon–oxygen double...
Basicity of Heterocyclic Aromatic Amines01:25

Basicity of Heterocyclic Aromatic Amines

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).

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相关实验视频

Updated: Jul 4, 2026

Determination of the Gas-phase Acidities of Oligopeptides
11:00

Determination of the Gas-phase Acidities of Oligopeptides

Published on: June 24, 2013

具有广泛基质范围的实际烯酸亚齐里丁化.

Tung Siu1, Andrei K Yudin

  • 1Department of Chemistry, University of Toronto, 80 St. George St., Toronto, Ontario, Canada M5S 3H6.

Journal of the American Chemical Society
|January 24, 2002
PubMed
概括

本研究提出了一种电化学方法,用于有机氧化还原反应,避免有毒试剂. 它使用N-aminophthalimide和选择性电化学潜能有效地将烯酸转化为亚齐里丁.

科学领域:

  • 有机电化学 有机电化学
  • 绿色化学是一种绿色化学.
  • 合成有机化学 合成有机化学

背景情况:

  • 传统的有机氧化还原反应通常依赖于有毒氧化剂和金属添加剂的固态度量.
  • 这些试剂带来了环境和安全问题,需要开发更清洁的合成方法.
  • 奥莱芬的选择性功能化可能具有挑战性,特别是当处理具有类似氧化还原潜力的基质时.

研究的目的:

  • 为有机氧化还原反应开发一种合理的,对环境无害的方法.
  • 用电化学证明一种高效的阿齐里迪纳化工艺.
  • 通过利用电化学电位控制来实现选择性基质转化.

主要方法:

  • 电化学合成使用随时可用的N-aminophthalimide作为烯来源.
  • 应用电位连续性的应用,以驱动回氧反应.
  • 利用电极表面的异质反应条件来控制选择性.

主要成果:

  • 成功地以高效率对富含电子和缺乏电子的烯酸进行亚齐里迪纳.
  • 展示具有相似的氧化还原潜力的基质之间的电化学区分.
  • 将选择性归因于电子转移的超电位和动力抑制现象.

更多相关视频

Specificity Analysis of Protein Lysine Methyltransferases Using SPOT Peptide Arrays
08:48

Specificity Analysis of Protein Lysine Methyltransferases Using SPOT Peptide Arrays

Published on: November 29, 2014

Preparation of Contiguous Bisaziridines for Regioselective Ring-Opening Reactions
04:38

Preparation of Contiguous Bisaziridines for Regioselective Ring-Opening Reactions

Published on: July 28, 2022

相关实验视频

Last Updated: Jul 4, 2026

Determination of the Gas-phase Acidities of Oligopeptides
11:00

Determination of the Gas-phase Acidities of Oligopeptides

Published on: June 24, 2013

Specificity Analysis of Protein Lysine Methyltransferases Using SPOT Peptide Arrays
08:48

Specificity Analysis of Protein Lysine Methyltransferases Using SPOT Peptide Arrays

Published on: November 29, 2014

Preparation of Contiguous Bisaziridines for Regioselective Ring-Opening Reactions
04:38

Preparation of Contiguous Bisaziridines for Regioselective Ring-Opening Reactions

Published on: July 28, 2022

结论:

  • 电化学方法为传统的有机氧化还原反应提供了一个可持续的替代方案,消除了对有毒试剂的需求.
  • 描述的阿齐里迪纳化过程是高效和多功能,适用于广泛的烯基底.
  • 对反应选择性的电化学控制为复杂的有机合成提供了一个强大的工具.