Bi_2O_3-B_2O_3ガラスの電気伝導と誘電的性質
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Electric conduction and dielectric properties of the bismuth borate glasses were determined over the entire region of homogeneous glass formation (31-80 Bi2O3mol%). The electric conduction is affected by water in the glass. The glasses containing the least amount of water could be obtained when reagent grade chemicals of Bi2O3 and B2O3 were melted in the vacuum furnace.The results on the electric conduction are summarized as follows:1) The temperature dependence of conduction was given byε=ε0exp(-ΔHdc/kT)in which ε is conductivity, ΔHdc activation energy of conduction, T absolute temperature, k Boltzmans constant and ε0 constant. The activation energies increased from 1.12eV (80Bi2O3mol%) to 1.59eV (31mol%). The values of ε0 were about 103ohm-1cm-1.2) The dielectric rlaxations with very long relaxation time were observed and the relaxation frequency was given byfm=fm0exp(-ΔHac/kT)in which ΔHac is activation energy of relaxation and fm0 constant. The values of fm0 were about 1013Hz. The following correlations were obtained between the conduction and the dielectric relaxation, ΔHdc≅ΔHacε≅2πε0Δεfmin which ε0 is dielectric constant of free space and Δε magnitude of the dielectric dispersion.3) The conductivity decreased as the pressure increased and the frequency of dielectric relaxation was shifted to lower frequency side.The obtained values of ΔHdc, ε0, ΔHac and fm0 were compared with those of the glasses of three different types (alkali oxide glasses, transition metal-containing oxide glasses and chalcogenide glasses). And it was found that those values of bismuth borate glasses were agreed very well with those of the alkali oxide glasses. As described in 3), the conductivity decreased as the pressure increased. The investigations on the pressure dependence of conduction show that the conductivity of alkali oxide glasses decreases by applying pressure, while that of electronic conducting glasses increases. From the facts described above, we concluded that the conduction mechanism of bismuth borate glasses is ionic. From the composition dependence of conductivity and the calculated values of carrier concentration from Δε, the conduction mechanism was ascribed to Bi3+ ion migration and not to proton or a trace of alkali ion migration.On the basis of the experimental results on dielectric properties the following problems were discussed, 1) polarization mechanism, 2) electronic polarizability of Bi3+ ion and 3) the temperature dependence of dielectric constant.
- 社団法人日本セラミックス協会の論文
- 1974-10-01
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