Structure of the Intermediate Phase Glasses GeSe3 and GeSe4: The Deployment of Neutron Diffraction With Isotope Substitution

Abstract: The method of neutron diffraction with isotope substitution was used to measure the full set of partial pair-correlation functions for each of the network-forming glasses GeSe 3 and GeSe 4 , which lie at the boundaries of the so-called intermediate phase in the Ge-Se system. The results show the formation of chemically ordered networks, where selenium chains are cross-linked by Ge(Se 4) 1/2 tetrahedra, in contrast to glassy GeSe 2 where the chemical order is broken. In all of these materials, the Ge-centered s… Show more

“…The neutron g T,N ( r ) and X-ray g T,X ( r ) total pair-distribution functions are shown in figure 5 c , d , respectively. In both cases, the first peak at 2.37(1) Åis likely to originate from a combination of Ge–Se and Se–Se correlations, as found from the measured set of g αβ ( r ) functions for the Ge 0.25 Se 0.75 base glass [ 55 ]. A second peak at ≃2.64 Åemerges with increasing silver content and, by comparison with the structures of the crystalline polymorphs of Ag 8 GeSe 6 [ 56 – 58 ], it is attributed to nearest-neighbour Ag–Se correlations.…”

“…the silver pair-distribution functions receive a larger weighting in g T,X ( r ) when compared with g T,N ( r ). For x =0, a shoulder on the low- r side of the peak at ≃3.8 Å, which is attributed to corner-sharing Ge–Ge correlations by comparison with the measured set of g αβ ( r ) functions for the base glass [ 55 ], becomes less pronounced with increasing silver content.…”

“…In the β ′ -Ag 8 GeSe 6 phase, for example, Ag has 3 or 4 Se atoms at distances in the range 2.53–2.91 Å, the nearest-neighbour Ag–Ag distances are in the range 2.99–3.18 Å and the shortest Ag–Ge distance is 3.70 Å [ 58 ]. In the Ge 0.25 Se 0.75 base glass, the measured set of g αβ ( r ) functions show both Ge–Se and Se–Se nearest-neighbours, with the bond distances and coordination numbers summarized in table 2 [ 55 ].…”

“…Results are also given from NDIS experiments on the Ge 0.25 Se 0.75 base glass [ 55 ], from previous neutron diffraction [ 24 , 29 ] and anomalous X-ray scattering [ 21 ] experiments on the silver-modified glass, from an analysis of anomalous X-ray scattering data using the reverse Monte Carlo method [ 34 , 35 ], and from a previous NDIS experiment on a related glass [ 36 ]. x r GeSe (Å) r SeSe (Å) function reference 0 2.37(1) 2.36(1) 4 0.66(5) D T,N ( r ) this work 2.37(2) — 4.00(2) — g GeSe ( r ) [ 55 ] — 2.35(2) — 0.70(2) g SeSe ( r ) [ 55 ] 4.2 2.35 2.35 4.07 0.78 — [ 35 ] 5 2.37(1) 2.35(1) 4 0.66(5) D T,N ...…”

“…Here, a starting point is provided by the ‘8-N’ rule for the base glass, where the overall coordination numbers of Ge and Se are Z Ge =4 and Z Se =2, respectively. A chemically ordered network model appears to hold for glasses such as Ge 0.25 Se 0.75 and Ge 0.20 Se 0.80 , as supported by the full set of g αβ ( r ) functions measured for these materials by using the NDIS method [ 55 ]. Hence, if the numbers of Ge and Se atoms in the base glass are denoted by N Ge and N Se , respectively, the number of Se–Se bonds can be enumerated as [ 36 ].…”

Structure of semiconducting versus fast-ion conducting glasses in the Ag–Ge–Se system

“…The neutron g T,N ( r ) and X-ray g T,X ( r ) total pair-distribution functions are shown in figure 5 c , d , respectively. In both cases, the first peak at 2.37(1) Åis likely to originate from a combination of Ge–Se and Se–Se correlations, as found from the measured set of g αβ ( r ) functions for the Ge 0.25 Se 0.75 base glass [ 55 ]. A second peak at ≃2.64 Åemerges with increasing silver content and, by comparison with the structures of the crystalline polymorphs of Ag 8 GeSe 6 [ 56 – 58 ], it is attributed to nearest-neighbour Ag–Se correlations.…”

“…the silver pair-distribution functions receive a larger weighting in g T,X ( r ) when compared with g T,N ( r ). For x =0, a shoulder on the low- r side of the peak at ≃3.8 Å, which is attributed to corner-sharing Ge–Ge correlations by comparison with the measured set of g αβ ( r ) functions for the base glass [ 55 ], becomes less pronounced with increasing silver content.…”

“…In the β ′ -Ag 8 GeSe 6 phase, for example, Ag has 3 or 4 Se atoms at distances in the range 2.53–2.91 Å, the nearest-neighbour Ag–Ag distances are in the range 2.99–3.18 Å and the shortest Ag–Ge distance is 3.70 Å [ 58 ]. In the Ge 0.25 Se 0.75 base glass, the measured set of g αβ ( r ) functions show both Ge–Se and Se–Se nearest-neighbours, with the bond distances and coordination numbers summarized in table 2 [ 55 ].…”

“…Results are also given from NDIS experiments on the Ge 0.25 Se 0.75 base glass [ 55 ], from previous neutron diffraction [ 24 , 29 ] and anomalous X-ray scattering [ 21 ] experiments on the silver-modified glass, from an analysis of anomalous X-ray scattering data using the reverse Monte Carlo method [ 34 , 35 ], and from a previous NDIS experiment on a related glass [ 36 ]. x r GeSe (Å) r SeSe (Å) function reference 0 2.37(1) 2.36(1) 4 0.66(5) D T,N ( r ) this work 2.37(2) — 4.00(2) — g GeSe ( r ) [ 55 ] — 2.35(2) — 0.70(2) g SeSe ( r ) [ 55 ] 4.2 2.35 2.35 4.07 0.78 — [ 35 ] 5 2.37(1) 2.35(1) 4 0.66(5) D T,N ...…”

“…Here, a starting point is provided by the ‘8-N’ rule for the base glass, where the overall coordination numbers of Ge and Se are Z Ge =4 and Z Se =2, respectively. A chemically ordered network model appears to hold for glasses such as Ge 0.25 Se 0.75 and Ge 0.20 Se 0.80 , as supported by the full set of g αβ ( r ) functions measured for these materials by using the NDIS method [ 55 ]. Hence, if the numbers of Ge and Se atoms in the base glass are denoted by N Ge and N Se , respectively, the number of Se–Se bonds can be enumerated as [ 36 ].…”

Structure of semiconducting versus fast-ion conducting glasses in the Ag–Ge–Se system

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