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α-Hydroxy Ketones via Reductive Coupling of Esters: Acyloin Condensation Overview01:19

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The pinacol and McMurry reactions involve the reductive coupling of ketones or aldehydes. Similarly, the bimolecular reductive coupling of two ester molecules in the presence of sodium metal in an aprotic solvent yields an α-hydroxy ketone product. The α-hydroxy ketone is also called acyloin, so the reaction is referred to as ‘acyloin condensation.’
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Carboxylic acids react with diazomethane in an ether solvent via alkylation at the carboxylate oxygen atom to give methyl esters of the corresponding acid with excellent yields.
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Acetoacetic ester synthesis is a method to obtain ketones from alkyl halides and β-keto esters. The reaction occurs in the presence of an alkoxide base that abstracts the acidic proton of the β-keto esters. The step results in an enolate ion which is doubly stabilized. The enolate then reacts with an alkyl halide via the SN2 process to produce an alkylated ester intermediate with a new C–C bond. The hydrolysis of the intermediate, followed by acidification, results in an...
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Phase II Reactions: Methylation Reactions01:17

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Methylation is a phase II biotransformation process involving the attachment of a methyl group to a substrate. Enzymes known as methyltransferases orchestrate this reaction.
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Like aldehydes, ketones are named using IUPAC rules; in this case, by replacing “e” in the name of the longest hydrocarbon chain with “one.” In acyclic ketones, the ketonic carbon is given the lowest locant value. For instance, as shown below, a simple five-carbon ketone is named pentan-2-one, instead of pentan-4-one. IUPAC rules also allow the placing of the locant value before the parent name to give an alternate name, 2-pentanone.
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Multiple Halogenation of Methyl Ketones: Haloform Reaction01:28

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A method involving the transformation of methyl ketones to carboxylic acids using excess base and halogen is called the haloform reaction. It begins with the deprotonation of α hydrogen to form an enolate ion which reacts with the electrophilic halogen to give an α-halo ketone. The step continues until all the α protons are substituted to form a trihalomethyl ketone. The resulting molecule is unstable, and in the presence of a hydroxide base, it readily undergoes nucleophilic...
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甲索亚重新审视的甲索亚

Archna Sharma1, Vivek K Gupta1, Igor Reva2

  • 1PG Department of Physics, University of Jammu, Jammu, J&K 180006, India.

Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy
|December 6, 2023
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概括
此摘要是机器生成的。

甲氧 (MA) 有四种构造,由于构造冷却,最稳定的Tt形式主导实验观测. 马的紫外线光解遵循诺里什型II和I机制,产生甲和一氧化碳.

关键词:
(最多可以. 6): 甲索基亚乙是一种甲索基亚乙.符合制冷的制冷方法脱碳化是指脱碳化.红外光谱学 红外光谱学 红外光谱学矩阵隔离的隔离方法摄影化学的使用.

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科学领域:

  • 计算化学的计算化学
  • 频谱学是一种光谱学.
  • 摄影化学的使用.

背景情况:

  • 了解分子构造对于预测化学行为至关重要.
  • 甲氧 (MA) 是一种具有复杂构造动态潜力的分子.
  • 之前的实验工作在冷矩阵中分离了MA.

研究的目的:

  • 通过计算来研究甲氧化 (MA) 的结构格局.
  • 为了将计算预测与实验光谱数据相关联.
  • 在紫外线照射下阐明MA的光化学机制.

主要方法:

  • 使用了ab initio (MP2) 和密度函数理论 (DFT/B3LYP) 的计算.
  • 形状分析包括研究围绕关键二面角的内部旋转.
  • 实验性红外光谱学和UV光解被用于表征和反应研究.

主要成果:

  • 预测了MA的四种稳定构造,其中Trans-trans (Tt) 构造是最稳定的.
  • 实验性的红外光谱检测只检测到Tt的符合性,归因于在矩阵沉积过程中的 conformational冷却.
  • 马的紫外线光解 (300-260nm) 通过诺里什II型和I型机制进行,产生甲和一氧化碳.

结论:

  • 计算方法可以准确地预测MA的形状偏好.
  • 合规冷却解释了对单个合规器的实验观测.
  • 马的光解提供了对其在紫外线下反应途径的见解,突出了诺里什机制.