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Nomenclature of Carboxylic Acid Derivatives: Amides and Nitriles01:11

Nomenclature of Carboxylic Acid Derivatives: Amides and Nitriles

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Naming Amides
The IUPAC and common names of amides are derived from the parent carboxylic acid, by replacing the suffix “oic acid” and “ic acid,” respectively, with “amide.” In the following example, the IUPAC name ethanamide is derived from ethanoic acid, and the common name, acetamide, is obtained from acetic acid.
4.3K
Chemical Ionization (CI) Mass Spectrometry01:21

Chemical Ionization (CI) Mass Spectrometry

838
The molecular ion peak of a molecule in the mass spectrum provides vital information for molecular identification. However, conventional electron impact ionization can lead to the rapid dissociation of some molecular ions before they reach the detector. A milder ionization method is required to increase the lifetime of such ionized analyte molecules. Chemical ionization (CI) is a gas-phase protonation reaction useful for mass-analyzing analyte molecules that are easily protonated to yield the...
838
Carbon Skeletons01:12

Carbon Skeletons

108.9K
Life on Earth is carbon-based, as all macromolecules that make up living organisms contain carbon atoms. All organic compounds have a carbon backbone. Each carbon atom is tetravalent and can bond with four other atoms, making it an extraordinarily flexible component of biological molecules. Because carbon’s valence electrons are stable, it rarely becomes an ion. As the carbon chain increases in length, structural modifications such as ring structures, double bonds, and branching side...
108.9K
Preparation of Amides01:29

Preparation of Amides

3.2K
Amides are synthesized by treating carboxylic acids with amines in the presence of dehydrating agents like dicyclohexylcarbodiimide (DCC).
The DCC-promoted synthesis of amides begins with the protonation of DCC by carboxylic acid. The protonation makes it a better acceptor. Next, the addition of carboxylate to the protonated carbodiimide gives a reactive acylating agent.
Subsequently, the amine acts as a nucleophile that attacks the acylating agent to form a tetrahedral intermediate. In the...
3.2K
Properties of Organometallic Compounds01:23

Properties of Organometallic Compounds

1.1K
Organometallic compounds are compounds that contain a carbon–metal bond. Carbon belongs to an organyl group like alkyl, aryl, allyl, or benzyl groups. The metal can be from Group I or Group II of the periodic table, a transition metal, or a semimetal.
1.1K
Structures of Carboxylic Acid Derivatives01:28

Structures of Carboxylic Acid Derivatives

2.8K
Structure of Carboxylic Acid Derivatives
Carboxylic acid derivatives contain an acyl group attached to a heteroatom such as chlorine, oxygen, or nitrogen. The carbonyl carbon and oxygen are both sp2-hybridized with an unhybridized p orbital.
The three sp2 orbitals of the carbonyl carbon form three σ bonds, one each with the carbonyl oxygen, the α carbon, and the heteroatom, whereas the other two sp2 orbitals of the carbonyl oxygen are occupied by the lone pairs. Further, the...
2.8K

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Updated: Sep 3, 2025

Isolating Free Carbenes, their Mixed Dimers and Organic Radicals
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Isolating Free Carbenes, their Mixed Dimers and Organic Radicals

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分子碳化物

Wei Jiang1, Zhaohui Wang1

  • 1Key Laboratory of Organic Optoelectronics and Molecular Engineering, Department of Chemistry, Tsinghua University, Beijing 100084, China.

Journal of the American Chemical Society
|July 29, 2022
PubMed
概括
此摘要是机器生成的。

分子碳胺 (MCI) 是一种具有独特性质和可调节结构的新类纳米碳. 为了释放它们的全部潜力,对它们的合成和应用进行进一步的研究,特别是在奇拉和自旋电子领域,是必不可少的.

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Self-assembling Morphologies Obtained from Helical Polycarbodiimide Copolymers and Their Triazole Derivatives
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Author Spotlight: Standardizing the Development of Amine-Based Silica Composites as CO2 Adsorbents for Direct Air Capture
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科学领域:

  • 先进的材料科学
  • 有机电子产品
  • 纳米技术

背景情况:

  • 纳米碳在过去的30年里彻底改变了科学.
  • 分子碳胺 (MCI) 是具有精确尺寸,形状和边缘控制的新兴纳米碳.
  • 基碳的伊米德功能化产生独特的特性,如可调节的结构和稳定性.

研究的目的:

  • 审查MCI中的分子设计的演变.
  • 突出MCI的多样性和应用.
  • 确定未来MCI的研究方向.

主要方法:

  • 对MCIs的分子设计策略的探索.
  • 综合和描述各种MCI架构 (1D,2D,跨维).
  • 对MCI在电荷传输,光电转换和性发光中的应用进行审查.

主要成果:

  • 提供灵活的合成,量身定制的结构和多样化的特性.
  • 已开发出具有 π 架构的多尺寸和多维 MCI 库.
  • 在电荷传输,光电转换和性发光方面,

结论:

  • 货币市场具有巨大的潜力,但仍未得到充分利用.
  • 合/环闭反应的进步对于MCI的发展至关重要.
  • 未来的研究应该专注于MCI的奇拉电子,自旋电子和人工智能驱动的预测.