Lawrence T. Scott scite author profile

Fullerenes are graphitic cage structures incorporating exactly twelve pentagons. The smallest possible fullerene is thus C20, which consists solely of pentagons. But the extreme curvature and reactivity of this structure have led to doubts about its existence and stability. Although theoretical calculations have identified, besides this cage, a bowl and a monocyclic ring isomer as low-energy members of the C20 cluster family, only ring isomers of C20 have been observed so far. Here we show that the cage-structured fullerene C20 can be produced from its perhydrogenated form (dodecahedrane C20H20) by replacing the hydrogen atoms with relatively weakly bound bromine atoms, followed by gas-phase debromination. For comparison we have also produced the bowl isomer of C20 using the same procedure. We characterize the generated C20 clusters using mass-selective anion photoelectron spectroscopy; the observed electron affinities and vibrational structures of these two C20 isomers differ significantly from each other, as well as from those of the known monocyclic isomer. We expect that these unique C20 species will serve as a benchmark test for further theoretical studies.

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A grossly warped nanographene and the consequences of multiple odd-membered-ring defects

Kawasumi

et al. 2013

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Graphite, the most stable form of elemental carbon, consists of pure carbon sheets stacked upon one another like reams of paper. Individual sheets, known as graphene, prefer planar geometries as a consequence of the hexagonal honeycomb-like arrangements of trigonal carbon atoms that comprise their two-dimensional networks. Defects in the form of non-hexagonal rings in such networks cause distortions away from planarity. Herein we report an extreme example of this phenomenon. A 26-ring C80H30 nanographene that incorporates five seven-membered rings and one five-membered ring embedded in a hexagonal lattice was synthesized by stepwise chemical methods, isolated, purified and fully characterized spectroscopically. Its grossly warped structure was revealed by single-crystal X-ray crystallography. An independent synthetic route to a freely soluble derivative of this new type of 'nanocarbon' is also reported. Experimental data reveal how the properties of such a large graphene subunit are affected by multiple odd-membered-ring defects.

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Geodesic Polyarenes by Flash Vacuum Pyrolysis

2006

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A Rational Chemical Synthesis of C ₆₀

Scott

Boorum

McMahon

et al. 2002

Science

416

260

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Isolable quantities of C60, the smallest stable fullerene, have been synthesized in 12 steps from commercially available starting materials by rational chemical methods. A molecular polycyclic aromatic precursor bearing chlorine substituents at key positions forms C60 when subjected to flash vacuum pyrolysis at 1100 degrees C. No other fullerenes are formed as by-products. The methods we have developed for the target-specific synthesis of fullerenes, applied here to a synthesis of C60, should make possible the directed laboratory preparation of other fullerenes as well, including those not accessible by graphite vaporization.

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A Short, Rigid, Structurally Pure Carbon Nanotube by Stepwise Chemical Synthesis

et al. 2011

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The inaccessibility of uniform-diameter, single-chirality carbon nanotubes (CNTs) in pure form continues to thwart efforts by scientists to use these ultrathin materials in innovative applications that could revolutionize nanoscale electronics. Stimulated by the challenge to address this long-standing problem, we and other organic chemists have envisioned a new production strategy involving the controlled elongation of small hydrocarbon templates, such as hemispherical nanotube end-caps, prepared by bottom-up chemical synthesis; the diameter and rim structure encoded in the template would dictate the diameter and chirality of the resulting CNT. Toward that objective, a short [5,5] CNT has now been synthesized by stepwise chemical methods. This C(50)H(10) geodesic polyarene has been isolated, purified, crystallized, and fully characterized by NMR spectroscopy, UV-vis absorption spectroscopy, high resolution mass spectrometry, and X-ray crystallography.

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Lawrence T. Scott

Gas-phase production and photoelectron spectroscopy of the smallest fullerene, C20

A grossly warped nanographene and the consequences of multiple odd-membered-ring defects

Geodesic Polyarenes by Flash Vacuum Pyrolysis

A Rational Chemical Synthesis of C ₆₀

A Short, Rigid, Structurally Pure Carbon Nanotube by Stepwise Chemical Synthesis

Contact Info

Product

Resources

About

Lawrence T. Scott

Gas-phase production and photoelectron spectroscopy of the smallest fullerene, C20

A grossly warped nanographene and the consequences of multiple odd-membered-ring defects

Geodesic Polyarenes by Flash Vacuum Pyrolysis

A Rational Chemical Synthesis of C 60

A Short, Rigid, Structurally Pure Carbon Nanotube by Stepwise Chemical Synthesis

Contact Info

Product

Resources

About

A Rational Chemical Synthesis of C ₆₀