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Ketones with Nonenolizable Aromatic Aldehydes: Claisen–Schmidt Condensation01:01

Ketones with Nonenolizable Aromatic Aldehydes: Claisen–Schmidt Condensation

4.5K
Benzaldehyde, like formaldehyde, lacks an α hydrogen and cannot enolize to form an enolate. Hence, the reaction of benzaldehyde with a ketone in the presence of an aqueous base forms a single crossed product. This reaction is referred to as Claisen–Schmidt condensation.
As the self-condensation of ketones is generally not favored in basic conditions, the self-condensed products do not form in the reaction between ketones and benzaldehyde. The general reaction of Claisen–Schmidt...
4.5K
Regioselective Formation of Enolates01:33

Regioselective Formation of Enolates

3.5K
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.
3.5K
Radical Chain-Growth Polymerization: Chain Branching01:17

Radical Chain-Growth Polymerization: Chain Branching

2.5K
The skeletal structure of polymers synthesized via radical polymerization is always branched. For example, the polymerization of ethylene by radical polymerization results in a low-density grade of polyethylene with a heavily branched skeletal structure. Here, the radical site abstracts hydrogen from the growing chain, and the radical site shifts from the end (a primary carbon center) to anywhere within the growing chain (a secondary carbon center). Consequently, the part of the chain from the...
2.5K
Cycloaddition Reactions: MO Requirements for Thermal Activation01:16

Cycloaddition Reactions: MO Requirements for Thermal Activation

4.7K
Thermal cycloadditions are reactions where the source of activation energy needed to initiate the reaction is provided in the form of heat. A typical example of a thermally-allowed cycloaddition is the Diels–Alder reaction, which is a [4 + 2] cycloaddition. In contrast, a [2 + 2] cycloaddition is thermally forbidden.
4.7K
Esters to β-Ketoesters: Claisen Condensation Mechanism01:08

Esters to β-Ketoesters: Claisen Condensation Mechanism

4.8K
Regular Claisen condensation involves the synthesis of β-ketoesters by combining identical ester molecules bearing two α hydrogens in the presence of an alkoxide base. The reaction commences with the deprotonation of the acidic α hydrogen by the base to form a resonance stabilized ester enolate. This nucleophilic ion then attacks the carbonyl center of another ester molecule to generate a tetrahedral alkoxide intermediate. Next, the expulsion of the alkoxide group from the...
4.8K
Formation of Halohydrin from Alkenes02:41

Formation of Halohydrin from Alkenes

14.8K
An alkene, such as propene, reacts with bromine in the presence of water to yield a halohydrin. Halohydrins contain a halogen and a hydroxyl group attached to adjacent carbons. When the halogen is bromine, it is called a bromohydrin, while a chlorohydrin has chlorine as the halogen.
14.8K

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Updated: Feb 17, 2026

A Modular Microfluidic Technology for Systematic Studies of Colloidal Semiconductor Nanocrystals
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A Modular Microfluidic Technology for Systematic Studies of Colloidal Semiconductor Nanocrystals

Published on: May 10, 2018

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絶え間ないフローは,ダイナミックな軌道選択によって有効化されたモジュラーケトンアセンブリを解き放つ.

Jiayin Wang1, Shuangshuang Zhou1, Xinyao Hu1

  • 1College of Pharmaceutical Sciences, Collaborative Innovation Center of Yangtze River Delta Region Green Pharmaceuticals, Zhejiang University of Technology Hangzhou Zhejiang 310032 P. R. China jincan@zjut.edu.cn sunbin@zjut.edu.cn.

Chemical science
|February 16, 2026
PubMed
まとめ
この要約は機械生成です。

この研究は,メタラフォトレドックス触媒によるケトンの合成のための新しい連続フロー方法を導入しています. このアプローチはアルデヒドとカルボキシル酸を効率的に結合させ,以前のケトン合成戦略の限界を克服します.

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Synthesis of Information-bearing Peptoids and their Sequence-directed Dynamic Covalent Self-assembly
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A Modular Microfluidic Technology for Systematic Studies of Colloidal Semiconductor Nanocrystals
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Automated Robotic Liquid Handling Assembly of Modular DNA Devices
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Synthesis of Information-bearing Peptoids and their Sequence-directed Dynamic Covalent Self-assembly
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科学分野:

  • 有機化学 オーガニック・ケミストリー
  • カタリシス カタリシス カタリシス
  • 合成方法論 合成方法論

背景:

  • ケトン合成は有機化学において極めて重要です.
  • ケトンのための既存のクロスカップリング方法は,限られた基板の範囲,厳しい条件,そして貧弱なスケーラビリティ,特にステリカルに阻害されたケトンのための課題に直面しています.

研究 の 目的:

  • 多様なケトンを合成するための多用途でスケーラブルな方法を開発する.
  • 既存のケトン合成方法の限界を克服するために,特にステリカルに阻害された化合物のために.

主な方法:

  • 連続フローメタルフォトレドックス触媒戦略を開発しました.
  • 差分結合解離エネルギーに基づくダイナミックな軌道選択メカニズムを利用した.
  • アルデヒドとカルボキシル酸の直接クロスカップリングを活性化し,酸化添加のステップを必要としない.

主要な成果:

  • アルデヒドとカルボキシル酸の効率的なクロスカップリングが達成され,ケトンが形成されます.
  • 広範な基板互換性と優れた機能群耐性を実証しています.
  • 非常にステリックに混雑したものを含む幅広い種類のケトンを成功裏に合成しました.
  • 連続フロー技術によるプロセス効率とスケーラビリティの向上を示した.
  • フローマイクロリアクターを使用して,24時間で100グラムスケールの合成を完了しました.

結論:

  • 開発された連続フローメタルフォトレドックス触媒は,ケトン合成のための持続可能で効率的なプラットフォームを提供します.
  • この方法は,ステキオメトリック・レドックス反応剤の必要性を回避し,スケーラビリティの問題に対処します.
  • この戦略は,ステリカルに阻害されたケトンを生産するのに有効であり,合成の可能性を拡大します.