Diversity of potential hydrogen bonds in cellulose I revealed by molecular dynamics simulation |
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Authors: | Pan Chen Yoshiharu Nishiyama Jean-Luc Putaux Karim Mazeau |
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Institution: | 1. Centre de Recherches Sur Les Macromolécules Végétales (CERMAV-CNRS), BP 53, 38041, Grenoble Cedex 9, France
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Abstract: | We have performed molecular dynamics calculations using a revised version of the Gromos56Acarbo force field to understand the consequences of the different potential hydrogen bonding patterns on the structural stability and thermal behavior of the Iα and Iβ forms of native cellulose. For each allomorph, we considered three patterns of hydrogen bonds: two patterns obtained from neutron diffraction data refinement and a regular mixture of the two. Upon annealing, the hydrogen bonding schemes of cellulose Iβ, irrespective of the starting structure, re-arranged into the main hydrogen bond pattern experimentally observed (pattern A). On the other hand, the Iα structures, irrespective of the starting hydrogen bonding pattern, converged to a non-experimental structure where the adjacent chains are shifted along the chain direction by 0.12 nm in the hydrogen-bonded plane, and the hydroxymethyl group conformation alternates between gt and tg along the chain. The exotic structure in Iα might be a consequence of a deficiency in force field parameters and/or potential molecular arrangement in less crystalline cellulose. |
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