TY - JOUR
T1 - High-temperature multi-nuclear NMR investigation of analcime
AU - Kim, Yeongkyoo
AU - Kirkpatrick, R. James
PY - 1998
Y1 - 1998
N2 - Two analcimes of hydrothermal and diagenetic origin were investigated by in situ 29Si, 27Al, and 23Na NMR from room temperature to 550°C, and by TGA and DSC. The two samples dehydrate at different temperatures, and the high-temperature NMR behavior is closely related to the dehydration. The diagenetic analcime (CR-6) has higher surface area, and thus its dehydration starts and is completed at lower temperatures than the hydrothermal analcime (Hilaire). The 29Si chemical shifts and 27Al peak maxima become first more shielded and then less shielded with increasing temperature and are related to changes in the Si-O-Si and Si-O-Al bond angles caused by thermal expansion, distortion of framework due to H2O loss at high temperature, and the decreased bond length caused by rigid unit modes (RUMs). Changes in the 27Al NMR peak widths are also correlated to H2O loss at high temperature and are due to the increased mobilities of H2O and Na. Paramagnetic impurities and motion of H2O and Na play important roles in the T1 relaxation of 27Al. The 23Na NMR peak maxima become first more negative and then less negative with increasing temperature, with the most negative values occurring near the temperature of maximum H2O loss. The 23Na peak width decreases, increases, and then again decreases with increasing temperature. These results are best interpreted as due to Na undergoing exchange between the 24(c) Na sites and other sites, possibly the 16(b) H2O sites, combined with collapse of the cages. The less negative 23Na peak and increasing and then decreasing 23Na peak widths at high temperature are due to the effects of motional averaging of the intensity due to the (±1/2, 3/2) satellite transitions.
AB - Two analcimes of hydrothermal and diagenetic origin were investigated by in situ 29Si, 27Al, and 23Na NMR from room temperature to 550°C, and by TGA and DSC. The two samples dehydrate at different temperatures, and the high-temperature NMR behavior is closely related to the dehydration. The diagenetic analcime (CR-6) has higher surface area, and thus its dehydration starts and is completed at lower temperatures than the hydrothermal analcime (Hilaire). The 29Si chemical shifts and 27Al peak maxima become first more shielded and then less shielded with increasing temperature and are related to changes in the Si-O-Si and Si-O-Al bond angles caused by thermal expansion, distortion of framework due to H2O loss at high temperature, and the decreased bond length caused by rigid unit modes (RUMs). Changes in the 27Al NMR peak widths are also correlated to H2O loss at high temperature and are due to the increased mobilities of H2O and Na. Paramagnetic impurities and motion of H2O and Na play important roles in the T1 relaxation of 27Al. The 23Na NMR peak maxima become first more negative and then less negative with increasing temperature, with the most negative values occurring near the temperature of maximum H2O loss. The 23Na peak width decreases, increases, and then again decreases with increasing temperature. These results are best interpreted as due to Na undergoing exchange between the 24(c) Na sites and other sites, possibly the 16(b) H2O sites, combined with collapse of the cages. The less negative 23Na peak and increasing and then decreasing 23Na peak widths at high temperature are due to the effects of motional averaging of the intensity due to the (±1/2, 3/2) satellite transitions.
UR - http://www.scopus.com/inward/record.url?scp=0031845631&partnerID=8YFLogxK
U2 - 10.2138/am-1998-3-418
DO - 10.2138/am-1998-3-418
M3 - Article
AN - SCOPUS:0031845631
SN - 0003-004X
VL - 83
SP - 339
EP - 347
JO - American Mineralogist
JF - American Mineralogist
IS - 3-4
ER -