Abstract

Slow molecular motion of polysaccharide chains in native starch and in retrograding starch gels was investigated by one- and two-dimensional exchange solid-state NMR spectroscopy. In native starch, no evidence of molecular motion of the polysaccharide chains on a time-scale of seconds was found. Molecular motion of polysaccharide chains during retrogradation on a time-scale of milliseconds was clearly visible from line broadening in the one-dimensional spectra. The spectra indicated motions with correlation time (τ c) of about 100μs. Ultraslow motions with τ c of tens of milliseconds were detected with stimulated echo and two-dimensional exchange NMR. Results showed that the retrogradation process occurs with a very wide distribution of correlation times. This NMR approach can be used in studies examining molecular mobilities in a wide range of complex and polymeric materials in relation to their physico-chemical properties and behaviour.

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