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Intramolecular Claisen Condensation of Dicarboxylic Esters: Dieckmann Cyclization01:13

Intramolecular Claisen Condensation of Dicarboxylic Esters: Dieckmann Cyclization

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Dieckmann cyclization is an intramolecular Claisen condensation of diesters. The reaction occurs in the presence of a base and generates a cyclic β-ketoester as the final product. Commonly, 1, 6 and 1, 7-diesters are preferred substrates for the reaction since the generated five, and six-membered cyclic β-keto esters are particularly more stable.
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Stability of Conjugated Dienes01:28

Stability of Conjugated Dienes

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Introduction
A comparison of the enthalpies of hydrogenation of dienes reveals that conjugated dienes release less heat on hydrogenation, rendering them more stable than their nonconjugated analogs.
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[4+2] Cycloaddition of Conjugated Dienes: Diels–Alder Reaction01:16

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The Diels–Alder reaction is an example of a thermal pericyclic reaction between a conjugated diene and an alkene or alkyne, commonly referred to as a dienophile. The reaction involves a concerted movement of six π electrons, four from the diene and two from the dienophile, forming an unsaturated six-membered ring. As a result, these reactions are classified as [4+2] cycloadditions.
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Preparation and Reactions of Sulfides02:26

Preparation and Reactions of Sulfides

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Sulfides are the sulfur analog of ethers, just as thiols are the sulfur analog of alcohol. Like ethers, sulfides also consist of two hydrocarbon groups bonded to the central sulfur atom. Depending upon the type of groups present, sulfides can be symmetrical or asymmetrical. Symmetrical sulfides can be prepared via an SN2 reaction between 2 equivalents of an alkyl halide and one equivalent of sodium sulfide.
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Aromatic Hydrocarbon Anions: Structural Overview01:18

Aromatic Hydrocarbon Anions: Structural Overview

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Neutral hydrocarbons like cyclopentadiene with an odd number of carbon atoms and one intervening CH2 group in the ring are not aromatic. Cyclopentadiene with 4 π electrons does not satisfy the 4n + 2 π electron rule. Additionally, the intervening CH2 group is sp3 hybridized and lacks a vacant p orbital, thereby interrupting the overlap of p orbitals in a continuous manner and preventing the delocalization of π electrons throughout the ring.
Due to the absence of continuous...
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Diels–Alder Reaction Forming Bridged Bicyclic Products: Stereochemistry01:29

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Diels–Alder reactions between cyclic dienes locked in an s-cis configuration and dienophiles yield bridged bicyclic products.
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Mesoionic Dithiolates (MIDts) Derived from 1,3-Imidazole-Based Anionic Dicarbenes (ADCs).

Falk Ebeler1, Yury V Vishnevskiy1, Beate Neumann1

  • 1Molecular Inorganic Chemistry and Catalysis, Inorganic and Structural Chemistry, Center for Molecular Materials, Faculty of Chemistry, Universität Bielefeld, Universitätsstrasse 25, 33615, Bielefeld, Germany.

Chemistry (Weinheim an Der Bergstrasse, Germany)
|April 1, 2022
PubMed
Summary

New mesoionic dithiolate ligands were synthesized from anionic dicarbenes and sulfur. These ligands form novel germanium complexes, including germylenes and a Ge-Ge catenation product, expanding organometallic chemistry.

Keywords:
carbenesdithiolenegermaniumlithiummesoionic

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Area of Science:

  • Organometallic Chemistry
  • Main Group Chemistry
  • Ligand Design

Background:

  • Mesoionic compounds represent a unique class of heterocyclic compounds with delocalized charge.
  • Anionic dicarbenes are versatile precursors in coordination and organometallic chemistry.
  • The development of novel ligands is crucial for advancing the synthesis of new inorganic and organometallic compounds.

Purpose of the Study:

  • To synthesize novel mesoionic dithiolate ligands from anionic dicarbenes.
  • To explore the coordination chemistry of these ligands with germanium.
  • To characterize the resulting germanium complexes and investigate their electronic structures.

Main Methods:

  • Synthesis of mesoionic dithiolates via reaction of anionic dicarbenes with elemental sulfur.
  • Complexation reactions with germanium dichloride precursors.
  • Characterization using spectroscopic methods (NMR, IR, etc.) and single-crystal X-ray diffraction.
  • Computational analysis using Density Functional Theory (DFT) calculations.

Main Results:

  • Readily accessible synthesis of mesoionic dithiolate ligands [(MIDtAr)Li(LiBr)2(THF)3] and [(MIDtPh)Li(THF)2] in high yields (>90%).
  • Formation of a three-coordinate germylene complex, (MIDtPh)GeCl, from the reaction of [(MIDtPh)Li(THF)2] with (L)GeCl2.
  • Synthesis of a Ge-Ge catenation product, (MIDtPh)GeGeCl3, and a homoleptic germylene, (MIDtPh)2Ge, through further reactions and reduction.

Conclusions:

  • Mesoionic dithiolates are effective ligands for stabilizing reactive germanium species.
  • The synthesized germanium complexes exhibit unique coordination environments and bonding.
  • DFT calculations provide insights into the electronic structures of the novel germanium compounds.