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相关概念视频

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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连续流动解锁模块化子组合,通过动态轨道选择启用.

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  • 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.

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概括

这项研究引入了一种新的连续流程方法,通过金属光电氧催化合成. 这种方法有效地将化物和碳酸结合在一起,克服了以前合成策略的局限性.

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科学领域:

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

背景情况:

  • 子合成在有机化学中至关重要.
  • 对于子而言,现有的交叉合方法面临着诸如有限的基质范围,恶劣的条件和糟糕的可扩展性等挑战,特别是对于无菌阻碍的子.

研究的目的:

  • 开发一种通用且可扩展的方法来合成多种类型的子.
  • 克服现有的子合成方法的局限性,特别是对于固态阻碍化合物.

主要方法:

  • 开发了一种连续流的金属光电氧催化策略.
  • 利用基于差异键解离能量的动态轨道选择机制.
  • 能够直接交叉合化物和碳酸,而不需要氧化添加步骤.

主要成果:

  • 实现了化物和碳酸的高效交叉合,形成子.
  • 已证明具有广泛的基质兼容性和出色的功能组耐受性.
  • 成功合成了多种类型的子,包括高度无菌的子.
  • 通过连续流技术展示了增强的过程效率和可扩展性.
  • 在24小时内使用流量微反应器完成了100克级合成.

结论:

  • 开发的连续流金属光电氧催化剂为子合成提供了可持续和高效的平台.
  • 这种方法规避了对固态度再氧化试剂的需求,并解决了可扩展性问题.
  • 这一策略对于生产无菌阻碍子是有效的,扩大了合成可能性.