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Extremely Long C-C Bonds Predicted beyond 2.0 Å.

Eero J J Korpela1, Jhonatas R Carvalho2, Hans Lischka2

  • 1Chemistry Department and Institute of Soft Matter, Georgetown University, 37th and O Streets, NW, Washington, District of Columbia 20057-1227, United States.

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|May 11, 2023
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Summary
This summary is machine-generated.

Researchers designed molecules with extremely long carbon-carbon bonds, finding they do not exhibit diradical character. These findings advance our understanding of chemical bonding and molecular stability.

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Area of Science:

  • Computational Chemistry
  • Organic Chemistry
  • Quantum Chemistry

Background:

  • Exploration of conjugated molecules with unusual bond lengths.
  • Investigation inspired by recent discoveries of elongated single C-C bonds.

Purpose of the Study:

  • To design and analyze conjugated molecules featuring extremely long single carbon-carbon (C-C) bonds exceeding 2.0 Å.
  • To evaluate the electronic properties, including diradicaloid character, of these elongated bonds.
  • To compare the stability and characteristics of molecules with stretched C-C bonds.

Main Methods:

  • Design of novel conjugated molecules with single C-C bonds beyond 2.0 Å.
  • Analysis using Wiberg bond index, bond dissociation energy (BDE), and fractional orbital density (FOD).
  • Unrestricted density functional theory (DFT) and high-level multireference calculations.

Main Results:

  • Computational modeling predicted achievable C-C bonds near 2.2 Å with a BDE of 15-25 kcal mol⁻¹.
  • All calculations indicated a lack of diradical character in molecules with elongated C-C bonds.
  • Fractional orbital density (FOD) calculations quantified diradicaloid character differences.

Conclusions:

  • Extremely elongated C-C bonds in conjugated systems do not inherently lead to diradical character.
  • The study provides insights into the limits of C-C bond stretching and molecular stability.
  • Computational methods successfully characterized the electronic nature of these unusual molecular structures.