Absence of proton tunneling during the hydrogen bond symmetrization in δ-AlOOH
Abstract
δ-AlOOH is of significant crystallochemical interest due to a subtle structural transition near 10 GPa from a P21nm to a Pnnm structure, the nature and origin of hydrogen disorder, the symmetrization of the O-H·sO hydrogen bond and their interplay. We perform a series of density functional theory based simulations in combination with high-pressure nuclear magnetic resonance experiments on δ-AlOOH up to 40 GPa with the goal to better characterize the hydrogen potential and therefore the nature of hydrogen disorder. Simulations predict a phase transition in agreement with our nuclear magnetic resonance experiments at 10-11 GPa and hydrogen bond symmetrization at 14.7 GPa. Calculated hydrogen potentials do not show any double-well character and there is no evidence for proton tunneling in our nuclear magnetic resonance data.
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