Isomerization of sp<sup>2</sup>‐hybridized carbon nanomaterials: structural transformation and topological defects of fullerene, carbon nanotube, and graphene

Xu, Ziwei; Liang, Zhenzhen; Ding, Feng

doi:10.1002/wcms.1283

Cited by 26 publications

(13 citation statements)

References 155 publications

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“…Because the observed structures of chemisorbed 1, its key intermediates, and the final C 60 structure match well with the simulations and models that are in line with the DFT calculations, a rearrangement of the carbon-skeleton by Stone−Wales rearrangement to an unstable non-IPR (isolated pentagon rule) isomer, 56 or knock-on removal of carbon atoms to unstable C 60−n (n = 1, 2, etc.) structures, can be ruled out.…”

Section: G)supporting

confidence: 78%

A Singular Molecule-to-Molecule Transformation on Video: The Bottom-Up Synthesis of Fullerene C₆₀ from Truxene Derivative C₆₀H₃₀

et al. 2021

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Singular reaction events of small molecules and their dynamics remain a hardly understood territory in chemical sciences since spectroscopy relies on ensemble-averaged data, and microscopic scanning probe techniques show snapshots of frozen scenes. Herein, we report on continuous high-resolution transmission electron microscopic video imaging of the electron-beam-induced bottom-up synthesis of fullerene C 60 through cyclodehydrogenation of tailor-made truxene derivative 1 (C 60 H 30 ), which was deposited on graphene as substrate. During the reaction, C 60 H 30 transformed in a multistep process to fullerene C 60 . Hereby, the precursor, metastable intermediates, and the product were identified by correlations with electron dose-corrected molecular simulations and singlemolecule statistical analysis, which were substantiated with extensive density functional theory calculations. Our observations revealed that the initial cyclodehydrogenation pathway leads to thermodynamically favored intermediates through seemingly classical organic reaction mechanisms. However, dynamic interactions of the intermediates with the substrate render graphene as a non-innocent participant in the dehydrogenation process, which leads to a deviation from the classical reaction pathway. Our precise visual comprehension of the dynamic transformation implies that the outcome of electron-beam-initiated reactions can be controlled with careful molecular precursor design, which is important for the development and design of materials by electron beam lithography.

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Section: G)supporting

confidence: 78%

A Singular Molecule-to-Molecule Transformation on Video: The Bottom-Up Synthesis of Fullerene C₆₀ from Truxene Derivative C₆₀H₃₀

et al. 2021

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“…4,7,28 The set contains only molecules that fulfil the isolated pentagon rule formulated for fullerenes, according to which neighboring pentagons are thermodynamically unstable and rearrange or expel C 2 to form pentagons isolated by hexagons. 29 Pericondensed PAHs with high symmetry containing only sp 2 carbon atoms have been found to be stable due to π-delocalization and are considered to be the primary species in high temperature amorphous carbons 30 and comprise the main part of the list in Figure 1 accordingly. Sumanene (3a) and (3b) contain sp 3 carbons and were also considered as they have been synthesized previously.…”

Section: Methodsmentioning

confidence: 99%

The Polarization of Polycyclic Aromatic Hydrocarbons Curved by Pentagon Incorporation: The Role of the Flexoelectric Dipole

et al. 2017

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Curvature in polyaromatic hydrocarbons (PAHs), due to pentagon inclusion, produces a dipole moment that contributes significantly to self-assembly processes and adsorption at the surface of carbon materials containing curved structures. This work presents electronic structure calculations of the dipole moment for 18 different curved PAH molecules for various numbers of pentagons and the total number of aromatic rings. A significant dipole moment was found that depends strongly on the number of aromatic rings (4-6.5 debye for ring count 10-20). The main cause for the dipole is shown to be the π-electron flexoelectric effect. An atom-centered partial charge representation of the charge distribution in these molecules is insufficient to correctly describe their electrostatic potential; distributed multipoles were required instead.

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“…Also, the temperature is too low for the fragmentation of C 60 molecule [100]. However, the C 60 cage can be broken at much lower temperature through coalescence with other C 60 molecules [101][102][103], driven by the energy gained by the reduction of the local curvature in the system. Simulations…”

Section: Discussionmentioning

confidence: 99%

Fractal nature of hard carbon prepared from C60 fullerene

Starešinić

Dominko

Rakić

et al. 2017

Carbon

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Hard form of carbon obtained by collapsing C 60 fullerene molecules at moderate pressure and temperature was investigated using different imaging techniques at spatial resolutions ranging from angstrom to millimeter. Hierarchical granular morphology has been observed from the atomic up to the sample size length scale, revealing scale independent grain size distribution. The unusual fractal-like structure correlates with unique transport and calorimetric properties of this material. Hard carbon can be considered as a bridge between porous and dense amorphous materials.

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Isomerization of sp²‐hybridized carbon nanomaterials: structural transformation and topological defects of fullerene, carbon nanotube, and graphene

Cited by 26 publications

References 155 publications

A Singular Molecule-to-Molecule Transformation on Video: The Bottom-Up Synthesis of Fullerene C₆₀ from Truxene Derivative C₆₀H₃₀

A Singular Molecule-to-Molecule Transformation on Video: The Bottom-Up Synthesis of Fullerene C₆₀ from Truxene Derivative C₆₀H₃₀

The Polarization of Polycyclic Aromatic Hydrocarbons Curved by Pentagon Incorporation: The Role of the Flexoelectric Dipole

Fractal nature of hard carbon prepared from C60 fullerene

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Isomerization of sp2‐hybridized carbon nanomaterials: structural transformation and topological defects of fullerene, carbon nanotube, and graphene

Cited by 26 publications

References 155 publications

A Singular Molecule-to-Molecule Transformation on Video: The Bottom-Up Synthesis of Fullerene C60 from Truxene Derivative C60H30

A Singular Molecule-to-Molecule Transformation on Video: The Bottom-Up Synthesis of Fullerene C60 from Truxene Derivative C60H30

The Polarization of Polycyclic Aromatic Hydrocarbons Curved by Pentagon Incorporation: The Role of the Flexoelectric Dipole

Fractal nature of hard carbon prepared from C60 fullerene

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Product

Resources

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Isomerization of sp²‐hybridized carbon nanomaterials: structural transformation and topological defects of fullerene, carbon nanotube, and graphene

A Singular Molecule-to-Molecule Transformation on Video: The Bottom-Up Synthesis of Fullerene C₆₀ from Truxene Derivative C₆₀H₃₀

A Singular Molecule-to-Molecule Transformation on Video: The Bottom-Up Synthesis of Fullerene C₆₀ from Truxene Derivative C₆₀H₃₀