Simple Ingestion Mechanism Small Fullerenes form and ingest others carbon species (linear, rings etc) to form larger fullerenes C 60 is the first stable

Simple Ingestion MechanismSmall Fullerenes form and ingest others carbon species (linear, rings etc) to form larger fullerenes C60 is the first stable species and C70 the next – they are partial cul-de-sacsSome further ingestion occurs to form larger Fullerenes

Exxon DataCox et al JACS 1101588 (1988)

Sussex NNC

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Laser vapourisation mass spectrum

McElvaney et al 1991

C18+

C36+ C50

+

C60+

C70+

C22O2+

C22O4+

200 300 400 500 600

700 800 900 1000

C54+

C72+

*











Laser vapourisation mass spectrum

McElvaney et al 1991

C18

C18+

C36+ C50

+

C60+

C70+

C22O2+

C22O4+

200 300 400 500 600

700 800 900 1000

C54+

C72+

*

n x 18 = 36, 54, 72, 90, 108 C atoms

4x6 = 24 C atoms24, 48, 72, 96

C36+

C60+

C70+

C24+

200 300 400 500 600 700 800 900 1000

C48+

C72+

100

C82+

C21+

C50+

5x6 C atoms in

ring

C21+

C60+

500 1000

C70+

2000

2500

1500

18 C atoms

70+1870+18+18

70+18+18+18












C88 is strong ???

4C18 C72*

C88 is strong ???

4C18 C72* C70- C2

C88 is strong ???

4C18 C72* C70 C88

C18

- C2

C88 is strong ???

70+24
























































C132+

C60+

500 1000

C70+

2000

2500

1500

C160+

C214+

C264+

C336+

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Cyclocarbon Coalescence: Mechanisms for Tailor-Made Fullerene Formation, by Stephen W. McElvany; Mark M. Ross; Nancy S. Goroff; Francois Diederich Science © 1993 American Association for the Advancement of Science

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Simple Ingestion Mechanism Small Fullerenes form and ingest others carbon species (linear, rings etc) to form larger fullerenes C 60 is the first stable