Synchrotron X-ray structures of cellulose Iβ and regenerated cellulose II at ambient temperature and 100 K

Synchrotron X- ray data have been collected to 1.4 angstrom resolution at the NE-CAT beam-line at the Advanced Photon Source from fibers of cellulose I-beta and regenerated cellulose II (Fortisan) at ambient temperature and at 100 K in order to understand the effects of low temperature on cellulose more thoroughly. Crystal structures have been determined at each temperature. The unit cell of regenerated cellulose II contracted, with decreasing temperature, by 0.25%, 0.22% and 0.1% along the a, b, and c axes, respectively, whereas that of cellulose Ib contracted only in the direction of the a axis, by 0.9%. The value of 4.6 x 10(-5) K-1 for the thermal expansion coefficient of cellulose Ib in the a axis direction can be explained by simple harmonic molecular oscillations and the lack of hydrogen-bonding in this direction. The molecular conformations of each allomorph are essential unchanged by cooling to 100 K. The room temperature crystal structure of regenerated cellulose II is essentially identical to the crystal structure of mercerized cellulose II.