Ngo Trung Hoc scite author profile

Nanometer-sized doubly bonded diamondoid dimers and trimers, which may be viewed as models of diamond with surface sp(2)-defects, were prepared from corresponding ketones via a McMurry coupling and were characterized by spectroscopic and crystallographic methods. The neutral hydrocarbons and their radical cations were studied utilizing density functional theory (DFT) and ab initio (MP2) methods, which reproduce the experimental geometries and ionization potentials well. The van der Waals complexes of the oligomers with their radical cations that are models for the self-assembly of diamondoids, form highly delocalized and symmetric electron-deficient structures. This implies a rather high degree of σ-delocalization within the hydrocarbons, not too dissimilar to delocalized π-systems. As a consequence, sp(2)-defects are thus also expected to be nonlocal, thereby leading to the observed high surface charge mobilities of diamond-like materials. In order to be able to use the diamondoid oligomers for subsequent surface attachment and modification, their C-H-bond functionalizations were studied, and these provided halogen and hydroxy derivatives with conservation of unsaturation.

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Noncovalent interactions in crowded olefinic radical cations

Fokin

Bahonsky

Koso

et al. 2020

J. org. pharm. chem.

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Noncovalent interactions in crowded olefinic radical cations Aim. To study the effect of electronic (α-and β-hyperconjugations) and steric (noncovalent interactions) factors on the structures of olefinic radical cations. Results and discussion. The effect of intramolecular dispersion interactions on the structures of crowded alkenes in the neutral and ionized forms has been studied at the density functional theory (DFT) level with and without dispersion corrections included, as well as at the MP2 theory level with medium size basis sets. The results obtained are compared to the available experimental data. An excellent agreement has been found between the experimental and MP2/DFT-computed geometries of sesquihomoadamantene, adamantylidene adamantane, bis-2,2,5,5-tetramethylcyclopentylidene, bis-D 3-homocub-4-ylidene, and bis-C S-homocub-8-ylidene in the neutral and ionized forms. The experimental ionization potentials are better reproduced with the DFT-methods. Experimental part. The structure and composition of compounds were proved by the methods of 1 H and 13 C NMR-spectroscopy, and GC-MS-analysis. Elemental analysis was performed for the compounds obtained. Conclusions. The twisting of the olefinic moieties in the sesquihomoadamantene and adamantylidene adamantane radical cations is determined by the balance between the σ-π-hyperconjugation and residual oneelectron π-bonding and is close to that of the prototypical ethylene radical cation (29°). The twisting reaches 55° for the bis-2,2,5,5-tetramethylcyclopentylidene radical cation due to substantial steric repulsions between methyl groups. At the same time, the ionized states of bis-D 3-homocub-4-ylidene and bis-C S-homocub-8-ylidene retain their planarity due to β-CC-hyperconjugation and intramolecular dispersion attractions.

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Towards 3-(2-adamantylidene)diamantane derivatives through the McMurry cross coupling reaction

Hoc¹,

Rodionov²,

Fokin³

2018

Org.Commun.

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Diamondoid assemblies have a potential in nanoelectronics as the substrates for self-assembled monolayer formation. However, selective functionalization of such molecules is cumbersome. We demonstrate that the McMurry cross-coupling reaction is useful for the preparation of 3-(2-adamantylidene)diamantane derivatives with substituents at the tertiary and secondary positions of the diamantane moiety. This allows to create the surface attachment points in the diamondoid structure.

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Functional derivatives of diamantanone

et al. 2016

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Ngo Trung Hoc

Toward an Understanding of Diamond sp²-Defects with Unsaturated Diamondoid Oligomer Models

Noncovalent interactions in crowded olefinic radical cations

Towards 3-(2-adamantylidene)diamantane derivatives through the McMurry cross coupling reaction

Functional derivatives of diamantanone

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Ngo Trung Hoc

Toward an Understanding of Diamond sp2-Defects with Unsaturated Diamondoid Oligomer Models

Noncovalent interactions in crowded olefinic radical cations

Towards 3-(2-adamantylidene)diamantane derivatives through the McMurry cross coupling reaction

Functional derivatives of diamantanone

Contact Info

Product

Resources

About

Toward an Understanding of Diamond sp²-Defects with Unsaturated Diamondoid Oligomer Models