Solution and Solid State NMR Studies of the Structure and Dynamics of C60 and C70

Abstract

We have investigated the structure and dynamics of C₆₀ and C₇₀ with ¹³C NMR spectroscopy. In solution, high-resolution spectra reveal that C₆₀ has a single resonance at 143 ppm, indicating a strained, aromatic system with high symmetry. This is strong evidence for a C₆₀ “soccer ball” geometry. A 2D NMR INADEQUATE experiment on ¹³C-enriched C₇₀ reveals the bonding connectivity to be a linear string, in firm support of the proposed “rugby ball” structure with D_5h symmetry, and furnishes resonance assignments. Solid state NMR spectra of C₆₀ at ambient temperatures yield a narrow resonance, indicative of rapid molecular reorientation. Variable temperature T₁ measurements show that the rotational correlation time is ∼ 10₋₉s at 230 K. At 77 K, this time increases to more than 1 ms, and the ¹³C NMR spectrum of C₆₀ is a powder pattern due to chemical shift anisotropy (tensor components 220, 186, 40 ppm). At intermediate temperatures a narrow peak is superimposed on the powder pattern, suggesting a distribution of barriers to molecular motion in the sample, or the presence of an additional phase in the solid state. A Carr-Purcell dipolar experiment on C₆₀ in the solid state allows the first precise determination of the C₆₀ bond lengths: 1.45 and 1.40Å.