13C NMR patterns of C36H2x fullerene hydrides
Calcns. of 13C nuclear shieldings for low-energy isomers of C36H2x (x = 2,3) suggest that it should be possible to use exptl. 13C shifts, when these become available, to distinguish the isomeric form of the underlying fullerene cage and, in the case of isomers based on the six-fold sym. cylindrical fullerene cage 36:15, the degree of polar hydrogenation. [on SciFinder (R)]
2002
361
5,6
405
410
CAN 138:55612
22-10
Physical Organic Chemistry
Department of Physical Chemistry,University of Geneva,Geneva,Switz.
Journal
written in English.
221694-70-8; 348622-28-6; 348622-33-3; 348622-34-4; 348622-35-5; 348622-36-6; 348622-37-7; 348622-38-8 Role: PRP (Properties) (Cs; 13C NMR patterns of C36H2x fullerene hydrides); 226400-81-3; 226400-84-6; 226400-86-8; 348622-27-5; 348622-29-7; 348622-30-0; 348622-31-1; 348622-32-2 Role: PRP (Properties) (C1; 13C NMR patterns of C36H2x fullerene hydrides); 348622-26-4 Role: PRP (Properties) (C2; 13C NMR patterns of C36H2x fullerene hydrides); 348622-25-3 Role: PRP (Properties) (C2h; 13C NMR patterns of C36H2x fullerene hydrides); 221694-69-5; 306963-39-3 Role: PRP (Properties) (C2v; 13C NMR patterns of C36H2x fullerene hydrides); 221694-63-9 Role: PRP (Properties) (D3h; 13C NMR patterns of C36H2x fullerene hydrides)
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