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Hydroboration-Oxidation of Alkenes03:08

Hydroboration-Oxidation of Alkenes

10.6K
In addition to the oxymercuration–demercuration method, which converts the alkenes to alcohols with Markovnikov orientation, a complementary hydroboration-oxidation method yields the anti-Markovnikov product. The hydroboration reaction, discovered in 1959 by H.C. Brown, involves the addition of a B–H bond of borane to an alkene giving an organoborane intermediate. The oxidation of this intermediate with basic hydrogen peroxide forms an alcohol.
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Alkynes to Aldehydes and Ketones: Hydroboration-Oxidation02:47

Alkynes to Aldehydes and Ketones: Hydroboration-Oxidation

20.3K
Introduction
One of the convenient methods for the preparation of aldehydes and ketones is via hydration of alkynes. Hydroboration-oxidation of alkynes is an indirect hydration reaction in which an alkyne is treated with borane followed by oxidation with alkaline peroxide to form an enol that rapidly converts into an aldehyde or a ketone. Terminal alkynes form aldehydes, whereas internal alkynes give ketones as the final product.
20.3K
α-Bromination of Carboxylic Acids: Hell–Volhard–Zelinski Reaction01:15

α-Bromination of Carboxylic Acids: Hell–Volhard–Zelinski Reaction

3.5K
The method to achieve α-brominated carboxylic acids using a mixture of phosphorus tribromide and bromine is known as the Hell–Volhard–Zelinski reaction. The reaction is catalyzed by phosphorus tribromide, which can be used directly or produced in situ from red phosphorus and bromine. The mechanism comprises PBr3 catalyzed conversion of acid to acid bromide and hydrogen bromide. The acid bromide enolizes to its enol form in the presence of HBr. The nucleophilic enol attacks the...
3.5K
Acid Halides to Alcohols: Grignard Reaction01:15

Acid Halides to Alcohols: Grignard Reaction

2.8K
Organomagnesium halides, commonly known as Grignard reagents, convert acid halides to tertiary alcohols. The reaction requires two equivalents of the Grignard reagent and proceeds via a ketone intermediate.
Grignard reagents are a source of carbanions and function as nucleophiles. The mechanism begins with the nucleophilic attack by the carbanion at the carbonyl carbon of the acid halide to form a tetrahedral intermediate. Next, the carbonyl group is re-formed, and the halide ion departs,...
2.8K
Radical Substitution: Allylic Bromination01:27

Radical Substitution: Allylic Bromination

6.3K
In organic synthesis, the formation of products can be altered by changing the reaction conditions. For example, a dibromo addition product is formed when propene is treated with bromine at room temperature. In contrast, propene undergoes allylic substitution in non-polar solvents at high temperatures to give 3-bromopropene. In order to avoid the addition reaction, the bromine concentration must be kept as low as possible throughout the reaction. This can be achieved using N-bromosuccinimide...
6.3K
Halogenation of Alkenes02:46

Halogenation of Alkenes

18.1K
Halogenation is the addition of chlorine or bromine across the double bond in an alkene to yield a vicinal dihalide. The reaction occurs in the presence of inert and non-nucleophilic solvents, such as methylene chloride, chloroform, or carbon tetrachloride.
Consider the bromination of cyclopentene. Molecular bromine is polarized in the proximity of the π electrons of cyclopentene. An electrophilic bromine atom adds across the double bond, forming a cyclic bromonium ion intermediate.
18.1K

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Updated: Dec 12, 2025

Combining Solid-state and Solution-based Techniques: Synthesis and Reactivity of ChalcogenidoplumbatesII or IV
10:42

Combining Solid-state and Solution-based Techniques: Synthesis and Reactivity of ChalcogenidoplumbatesII or IV

Published on: December 29, 2016

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ボロン-カルコゲン混合法によるアクティニドの酸化物からカルコゲン化物への簡単な変換

Logan S Breton1, Vladislav V Klepov1, Hans-Conrad Zur Loye1

  • 1Department of Chemistry and Biochemistry, University of South Carolina, Columbia, South Carolina 29208, United States.

Journal of the American Chemical Society
|August 14, 2020
PubMed
まとめ

新しいボロンカルコゲン混合物 (BCM) 方法は,酸素の不純物によって引き起こされる課題を克服し,純粋なアクチニドカルコゲニドの合成を可能にします. このテクニックでは 酸化物を取り除き,新しいウランとトーリウム化合物を 作り出します

科学分野:

  • 材料科学
  • 無機化学
  • アクチニド化学

背景:

  • アクチニドカルコゲニドは,柔らかいリガンド環境における5f電子の振る舞いを研究するために重要である.
  • アクティニドの高酸素親和性により,フェーズ純のアクティニドカルコゲニドの合成は困難であり,しばしば酸化不純物が生じる.
  • 既存の方法は酸素のない前駆物質を必要とし,材料のアクセシビリティを制限しています.

研究 の 目的:

  • 段階的に純粋なアクチニドカルコゲニドを生産するための新しい合成方法を導入する.
  • アクティニドカルコゲニド合成における酸化不純物の問題に対処する.
  • 様々なアクティニドカルコゲニドのクラスにおける新しい方法の汎用性を実証する.

主な方法:

  • ボロン・カルコゲン混合物 (BCM) 法の開発
  • ボールを"酸素スポンジ"として使用し,酸化物前駆体から酸素を取り除く.
  • 元素カルコゲンを使って,酸化素を酸素のないカルコゲニド反応剤に変換する.

主要な成果:

  • BCM法によるフェーズ純ウランカルコゲニドの合成に成功した.
  • 方法の幅広い機能性を様々な合成で実証する.

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Development and Validation of Chromium Getters for Solid Oxide Fuel Cell Power Systems
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Development and Validation of Chromium Getters for Solid Oxide Fuel Cell Power Systems

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Application of Elemental Lanthanides in the Selective C-F Activation of Trifluoromethylated Benzofulvenes Providing Access to Various Difluoroalkenes
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Application of Elemental Lanthanides in the Selective C-F Activation of Trifluoromethylated Benzofulvenes Providing Access to Various Difluoroalkenes

Published on: July 28, 2018

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関連する実験動画

Last Updated: Dec 12, 2025

Combining Solid-state and Solution-based Techniques: Synthesis and Reactivity of ChalcogenidoplumbatesII or IV
10:42

Combining Solid-state and Solution-based Techniques: Synthesis and Reactivity of ChalcogenidoplumbatesII or IV

Published on: December 29, 2016

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Development and Validation of Chromium Getters for Solid Oxide Fuel Cell Power Systems
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Development and Validation of Chromium Getters for Solid Oxide Fuel Cell Power Systems

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Application of Elemental Lanthanides in the Selective C-F Activation of Trifluoromethylated Benzofulvenes Providing Access to Various Difluoroalkenes
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Application of Elemental Lanthanides in the Selective C-F Activation of Trifluoromethylated Benzofulvenes Providing Access to Various Difluoroalkenes

Published on: July 28, 2018

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  • 新しい稀土ウラン硫化物とアルカリ・トリウムチオフォスファートの製造,アプローチの検証.
  • 酸化物から硫化物への変換が成功し,流水晶の成長でアクティニドカルコゲニドのインシット生成.
  • 結論:

    • BCM方法は,純粋なアクティニドカルコゲニドを合成するための堅固なソリューションを提供します.
    • この技術は,アクティニド材料の酸素汚染の持続的な課題を克服します.
    • この方法は,新しいアクティニドカルコゲニド化合物の生成を容易にし,合成の可能性を拡大します.