Articles you may be interested inLow temperature phase properties of water confined in mesoporous silica MCM-41: Thermodynamic and neutron scattering study Effects of nonframework metal cations and phonon scattering mechanisms on the thermal transport properties of polycrystalline zeolite LTA films J. Appl. Phys. 107, 063518 (2010); 10.1063/1.3327419 X-ray diffraction and inelastic neutron scattering study of 1:1 tetramethylpyrazine chloranilic acid complex: temperature, isotope, and pressure effects Elastic, quasielastic, and inelastic neutron-scattering studies on the charge-transfer hexamethylbenzenetetracyanoquinodimethane complex together with the sheet silicate apophyllite KCa 4 Si 8 O 20 ͑F, OH͒ 8H 2 O, are shown here. We show clear trends across these minerals, illustrating the relative influence of hydrogen bonding and cation bonding. For some of these spectra, the bands are clearly separated, permitting a discussion of their assignments. In particular, we can identify librational bands ͑L͒ or librational edge ͑LE͒ and translational ͑cation-water stretch͒ bands ͑C͒, and by elimination can tentatively assign bands as hydrogen-bond stretch bands ͑H͒, as follows ͑frequencies given in meV͒: Natrolite: 13,18 ͑C͒ 26 ͑H͒, 64,68,87 ͑L͒; Apophyllite 17,26 ͑C͒, 35 ͑H͒ 64,79,98 ͑L͒; Scolecite 10 ͑C͒, 22,29,36,41 ͑H͒, 46 ͑LE͒; Wairakite 12 ͑C͒, 30 ͑LE͒; Bikitaite 13 ͑C͒, 22 ͑H͒, 34 ͑LE͒, 70͑L͒. The results are compared with those for ice and are explained in terms of the nearest-neighbor environment of the water molecule.
