Molecular H2 trapped in AlH3 solid

Solid aluminum hydride, AlH3, has been proposed and studied for applications in hydrogen storage. In some samples, a comparatively narrow feature in the proton NMR spectrum is observed; we demonstrate here that this peak is due to molecular hydrogen (H-2) trapped within the solid, presumably from earlier processing procedures or partial decomposition. Static and magic-angle spinning NMR show that the responsible species is highly mobile, even at I I K. Neutron-energy-gain spectra obtained at 3.5 K yield a feature at or near the free-rotor H-2 energy difference between the J = 1 and J = 0 states. Both NMR and neutron scattering demonstrate ortho-para conversion at low temperatures. Similar NMR signatures in other hydrogen-storage solids such as NaAlH4 may also be due to trapped H-2. (C) 2007 Elsevier B.V. All rights reserved.