Abstract
Plane wave and molecular orbital density functional theory calculations with periodic models and oligomer fragments based on Iβ cellulose showed relationships among hydrogen bond (H-bond) lengths, angles, energies, and vibrational frequencies. Significantly, the 13C NMR chemical shifts (δ13C), glycosidic and hydroxymethyl torsion angles, H-bond vibrational frequencies, and H-bond geometries results all suggest the predominance of the crystallographic structure C rather than structure A of Iβ cellulose as reported by Nishiyama et al. (J Am Chem Soc 124(31):9074–9082, 2002). The results reported herein also clarified that the δ13C and δ13C′ data from Erata et al. (Cellul Commun 4:128–131, 1997) correspond to δ13C from the origin and center chains of cellulose, respectively. Moreover, this work discusses the use of cellulose oligomer fragments for their potential use in understanding cellulose assembly.
Published Version
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