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相关概念视频

Reactivity of Enolate Ions01:23

Reactivity of Enolate Ions

Enolate ions are formed by the acid–base reaction of a carbonyl compound with a base. This leads to deprotonation of the α hydrogen atom, leading to a resonance-stabilized enolate ion where one of the contributing structures is an oxyanion, which imparts additional stability. Therefore, the proton on the α carbon is more acidic in nature than that of other sp3-hybridized C–H bonds but less acidic than those in O–H bonds where the negative charge in the conjugate base is localized on the oxygen...
Enolate Mechanism Conventions01:15

Enolate Mechanism Conventions

When a carbonyl compound is treated with a strong base, the α position gets deprotonated to give a resonance-stabilized intermediate called an enolate. Enolates are ambident nucleophiles because they possess two nucleophilic sites that can attack an electrophile owing to the delocalization of the negative charge between the α carbon and oxygen atoms. When the oxygen atom attacks an electrophile, it is called O-attack, whereas electrophilic attack via the α carbon is known as C-attack.
C-attack...
Regioselective Formation of Enolates01:33

Regioselective Formation of Enolates

As depicted in the figure below, the unsymmetrical ketones can form two possible enolates: less substituted or more substituted enolates. Usually, the thermodynamic enolates are formed from the more substituted α-carbon atom, while the kinetic enolates are formed faster by deprotonation from the less substituted position. The thermodynamic enolates have lower energy, so they are more stable. But the energy required to form kinetic enolates is less.
Reactivity of Enols01:18

Reactivity of Enols

Enols are a class of compounds where a hydroxyl group is attached to a carbon–carbon double bond, which implies that it is a vinyl alcohol. A carbonyl compound with an α hydrogen undergoes keto–enol tautomerism and remains in equilibrium with its tautomer, the enol form. Usually, the keto tautomer is present in a higher concentration than the enol tautomer due to the higher bond energy of C=O compared to C=C. Moreover, the direction of the keto–enol equilibrium is governed by factors like...
Stereochemical Effects of Enolization01:12

Stereochemical Effects of Enolization

The chiral α-carbon of the carbonyl compound is the stereocenter of the molecule. As shown in the figure below, when such a carbonyl compound undergoes racemization under an acidic or basic condition, an achiral enol is formed.
α-Alkylation of Ketones via Enolate Ions01:10

α-Alkylation of Ketones via Enolate Ions

Ketones with α protons are deprotonated by strong bases like lithium diisopropylamide (LDA) to form enolate ions. The anion is stabilized by resonance, and its hybrid structure exhibits negative charges on the carbonyl oxygen and the α carbon. This ambident nucleophile can attack an electrophile via two possible sites: the carbonyl oxygen, known as O-attack, or the α carbon, known as C-attack. The nucleophilic attack via the carbanionic site is preferred. This is due to the strong interaction...

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相关实验视频

Updated: Jul 3, 2026

A Two-Step Protocol for Umpolung Functionalization of Ketones Via Enolonium Species
08:12

A Two-Step Protocol for Umpolung Functionalization of Ketones Via Enolonium Species

Published on: August 16, 2018

分子间酸异质合:范围,机制和应用.

Michael P DeMartino1, Ke Chen, Phil S Baran

  • 1Department of Chemistry, The Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, California 92037, USA.

Journal of the American Chemical Society
|August 6, 2008
PubMed
概括

研究人员开发了可扩展的氧化合方法,用于碳化合物,如胺和类. 这种进步提供了新的合成途径,通过复杂分子合成中的应用来证明.

科学领域:

  • 有机化学 有机化学
  • 合成方法论 合成方法论
  • 催化剂是一种催化剂.

背景情况:

  • 碳化合物的氧化分子间合是有机合成中的关键转化.
  • 现有的方法往往缺乏通用性或可扩展性来创建多样化的分子架构.
  • 了解这些合的机械路径对于进一步发展至关重要.

研究的目的:

  • 开发可靠和可扩展的协议,用于各种碳基物种的氧化分子间合.
  • 阐明铜 (II) 和铁 (III) 介导的氧化乙烯酸合物的机械细节.
  • 证明开发的方法在复杂分子合成中的实用性.

主要方法:

  • 使用可溶性铜 (II) 和铁 (III) 盐作为氧化剂,优化反应条件.
  • 进行了广泛的机制研究,包括对单电子转移和异构化途径的研究.
  • 将开发的协议应用于广泛的基质 (40个例子) 和扩大规模的研究.

主要成果:

  • 建立了有效和可扩展的协议,用于氧化合的胺基,胺基,和oxindoles.
  • 提供了深入的机械洞察力,区分铜 (II) - (单电子转移) 和铁 (III) -介导 (异构化) 过程.
  • 成功地将该方法应用于 (-) -bursehernin和医学相关的酸盐衍生物的总合成.

更多相关视频

A Microwave-Assisted Direct Heteroarylation of Ketones Using Transition Metal Catalysis
07:06

A Microwave-Assisted Direct Heteroarylation of Ketones Using Transition Metal Catalysis

Published on: February 16, 2020

Development of Heterogeneous Enantioselective Catalysts using Chiral Metal-Organic Frameworks (MOFs)
08:25

Development of Heterogeneous Enantioselective Catalysts using Chiral Metal-Organic Frameworks (MOFs)

Published on: January 17, 2020

相关实验视频

Last Updated: Jul 3, 2026

A Two-Step Protocol for Umpolung Functionalization of Ketones Via Enolonium Species
08:12

A Two-Step Protocol for Umpolung Functionalization of Ketones Via Enolonium Species

Published on: August 16, 2018

A Microwave-Assisted Direct Heteroarylation of Ketones Using Transition Metal Catalysis
07:06

A Microwave-Assisted Direct Heteroarylation of Ketones Using Transition Metal Catalysis

Published on: February 16, 2020

Development of Heterogeneous Enantioselective Catalysts using Chiral Metal-Organic Frameworks (MOFs)
08:25

Development of Heterogeneous Enantioselective Catalysts using Chiral Metal-Organic Frameworks (MOFs)

Published on: January 17, 2020

结论:

  • 开发的氧化烯酸盐异构合方法是强大的,可扩展的,广泛适用.
  • 机理学研究提供了对金属介导氧化合反应的批判性理解.
  • 这种方法代表了构建复杂有机分子的重大进步.