J. H. Weaver scite author profile

Laser vaporization experiments with graphite in a supersonic cluster beam apparatus indicate that the smallest fullerene to form in substantial abundance is C(28). Although ab initio quantum chemical calculations predict that this cluster will favor a tetrahedral cage structure, it is electronically open shell. Further calculations reveal that C(28) in this structure should behave as a sort of hollow superatom with an effective valence of 4. This tetravalence should be exhibited toward chemical bonding both on the outside and on the inside of the cage. Thus, stable closed-shell derivatives of C(28) with large highest occupied molecular orbital-lowest unoccupied molecular orbital gaps should be attainable either by reacting at the four tetrahedral vertices on the outside of the C(28) cage to make, for example, C(28)H(4), or by trapping a tetravalent atom inside the cage to make endothedral fullerenes such as Ti@C(28). An example of this second, inside route to C(28) stabilization is reported here: the laser and carbon-arc production of U@C(28).

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Optical properties of Rh, Pd, Ir, and Pt

Weaver

1975

Phys. Rev. B

248

122

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Growth and Sintering of Fullerene Nanotubes

Colbert

Zhang

McClure

et al. 1994

Science

291

120

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Carbon nanotubes produced in arcs have been found to have the form of multiwalled fullerenes, at least over short lengths. Sintering of the tubes to each other is the predominant source of defects that limit the utility of these otherwise perfect fullerene structures. The use of a water-cooled copper cathode minimized such defects, permitting nanotubes longer than 40 micrometers to be attached to macroscopic electrodes and extracted from the bulk deposit. A detailed mechanism that features the high electric field at (and field-emission from) open nanotube tips exposed to the arc plasma, and consequent positive feedback effects from the neutral gas and plasma, is proposed for tube growth in such arcs.

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XPS probes of carbon-caged metals

Weaver

Chai

Kroll

et al. 1992

Chemical Physics Letters

266

110

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J. H. Weaver

Uranium Stabilization of C ₂₈ : A Tetravalent Fullerene

Optical properties of Rh, Pd, Ir, and Pt

Growth and Sintering of Fullerene Nanotubes

XPS probes of carbon-caged metals

Contact Info

Product

Resources

About

J. H. Weaver

Uranium Stabilization of C 28 : A Tetravalent Fullerene

Optical properties of Rh, Pd, Ir, and Pt

Growth and Sintering of Fullerene Nanotubes

XPS probes of carbon-caged metals

Contact Info

Product

Resources

About

Uranium Stabilization of C ₂₈ : A Tetravalent Fullerene