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Literature DB >> 30456820

Exceptionally Long C-C Single Bonds in Diamino-o-carborane as Induced by Negative Hyperconjugation.

Junxia Li¹, Ronglin Pang¹, Zhifang Li¹, Guoqiao Lai¹, Xu-Qiong Xiao^1,2, Thomas Müller².

Abstract

The synthesis of a series of 1,2-diamino-o-carboranes (1-4) is reported. The molecular structures of these diamino-o-carboranes are remarkable as the inner-cluster C-C bonds are all ultra-long (162.7-193.1 pm) and vary substantially with small variations in the substituents. The results of quantum mechanical investigations suggest that the origin of the bond elongation is significant in-plane negative hyperconjugation of lone pairs of the nitrogen substituents with the σ* orbitals of the C-C bonds in o-carboranes.

Entities: Chemical

Keywords: DFT calculations; NBO; hyperconjugation; long C−C bond; o-carborane

Year: 2018 PMID： 30456820 DOI： 10.1002/anie.201812555

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

5 in total

Exceptionally Long C-C Single Bonds in Diamino-o-carborane as Induced by Negative Hyperconjugation.

Review 1. Into the Unknown: How Computation Can Help Explore Uncharted Material Space.

2. Determining Repulsion in Cyclophane Cages.

3. An electric field-based approach for quantifying effective volumes and radii of chemically affected space.

4. Exceptionally Long Covalent CC Bonds-A Local Vibrational Mode Study.

5. Reductive Dimerization of Macrocycles Activated by BBr₃.

Exceptionally Long C-C Single Bonds in Diamino-o-carborane as Induced by Negative Hyperconjugation.

Review 1. Into the Unknown: How Computation Can Help Explore Uncharted Material Space.

2. Determining Repulsion in Cyclophane Cages.

3. An electric field-based approach for quantifying effective volumes and radii of chemically affected space.

4. Exceptionally Long Covalent CC Bonds-A Local Vibrational Mode Study.

5. Reductive Dimerization of Macrocycles Activated by BBr3.

5. Reductive Dimerization of Macrocycles Activated by BBr₃.