The split network analysis for exploring composition-structure correlations in multi-component glasses: I. Rationalizing bioactivity-composition trends of bioglasses |
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| Authors: | Mattias Edé n |
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| Affiliation: | Physical Chemistry Division, Department of Materials and Environmental Chemistry, Arrhenius Laboratory, Stockholm University, SE-106 91 Stockholm, Sweden |
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| Abstract: | ![]()
We present a strategy, referred to as “split network” analysis, for assessing the average network polymerization (rF) and mean number of bridging oxygen (BO) atoms (N?BOF) for each individual network former F in multi-component oxide-based glasses, primarily targeting those involving Al, B, P and Si. This requires a priori knowledge about the parameters {rF, N?BOF} of all network builders, but one, whose values are deduced by the split network procedure. We illustrate split-network concepts for establishing composition/structure/bioactivity correlations in Na-Ca-Si-P-O glasses. The cooperating influences on the bioactivity from the average polymerization degree of the silicate network and the amounts of orthophosphate and sodium ions are discussed. |
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| Keywords: | Glass structure Network polymerization Network connectivity BO/NBO distributions Silicate Na2O-CaO-SiO2-P2O5 system Bioactive glass Composition-structure-bioactivity correlations |
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