Assembling a semiconductor quantum supralattice one atom at a time: Nonstoichiometric silver, sodium bromosodalites

Andreas Stein; Peter M. Macdonald; Geoffrey A. Ozin; Galen D. Stucky

doi:10.1021/j100381a006

Assembling a semiconductor quantum supralattice one atom at a time: Nonstoichiometric silver, sodium bromosodalites

Andreas Stein, Peter M. Macdonald, Geoffrey A. Ozin, Galen D. Stucky

Chemistry (Twin Cities)

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Abstract

The synthetic details and structural, vibrational, and optical properties of a series of novel silver, sodium bromohydrosodalites of the type (8 - p - 2n)Na,2nAg, (2 - p)Br-SOD, where p = 0-2, 2n = 0-8 are reported. These sodalites form a solid solution of empty β-cages interdispersed with Na_4-nAg_nBr clusters. Variations in p alter the mean distance between the clusters while changes in n shift the constituents of the clusters from those of an insulator to a semiconductor type. Far-infrared, ²³Na MAS-NMR, optical spectroscopy, and Rietveld refinement of high-resolution powder XRD data show that these materials offer the opportunity to manipulate the extent of collective electronic and vibrational interactions between monodispersed clusters in a perfectly crystalline host.

Original language	English (US)
Pages (from-to)	6943-6948
Number of pages	6
Journal	Journal of physical chemistry
Volume	94
Issue number	18
DOIs	https://doi.org/10.1021/j100381a006
State	Published - 1990

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title = "Assembling a semiconductor quantum supralattice one atom at a time: Nonstoichiometric silver, sodium bromosodalites",

abstract = "The synthetic details and structural, vibrational, and optical properties of a series of novel silver, sodium bromohydrosodalites of the type (8 - p - 2n)Na,2nAg, (2 - p)Br-SOD, where p = 0-2, 2n = 0-8 are reported. These sodalites form a solid solution of empty β-cages interdispersed with Na4-nAgnBr clusters. Variations in p alter the mean distance between the clusters while changes in n shift the constituents of the clusters from those of an insulator to a semiconductor type. Far-infrared, 23Na MAS-NMR, optical spectroscopy, and Rietveld refinement of high-resolution powder XRD data show that these materials offer the opportunity to manipulate the extent of collective electronic and vibrational interactions between monodispersed clusters in a perfectly crystalline host.",

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AU - Ozin, Geoffrey A.

AU - Stucky, Galen D.

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AB - The synthetic details and structural, vibrational, and optical properties of a series of novel silver, sodium bromohydrosodalites of the type (8 - p - 2n)Na,2nAg, (2 - p)Br-SOD, where p = 0-2, 2n = 0-8 are reported. These sodalites form a solid solution of empty β-cages interdispersed with Na4-nAgnBr clusters. Variations in p alter the mean distance between the clusters while changes in n shift the constituents of the clusters from those of an insulator to a semiconductor type. Far-infrared, 23Na MAS-NMR, optical spectroscopy, and Rietveld refinement of high-resolution powder XRD data show that these materials offer the opportunity to manipulate the extent of collective electronic and vibrational interactions between monodispersed clusters in a perfectly crystalline host.

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Assembling a semiconductor quantum supralattice one atom at a time: Nonstoichiometric silver, sodium bromosodalites

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