Abstract
It is known that glasses contained Transition Metal Oxide (TMO) such as V2O5 show a semi-conductivity, those conductive mechanism has been understood according to the Small Polaron Hopping (SPH) theory developed by Mott and Austin. Authors investigated the glass formation regions, de-conductivity([sigma]) and the conductive mechanism for V2O5-Bi2O3-TeO2 glasses as a tellurite glass containing the TMO. It was clarified that the adiabatic SPH and the non-adiabatic SPH are satisfied for the glasses with V2O5>50 mol% and V2O5<50 mol%, respectively. In this study, the electrical properties of V2O5-ZnO-TeO2 glasses were investigated, and the SPH conductions were considered from the standpoints of the polaron band width J, carrier mobility [mu], carrier density Nc. The conductive mechanism and dependence of V2O5 density on Seebeck coefficients Q were clarified in which a formation region of V2O5 is from 30 to 60 mol%. 40 refs., 9 figs., 2 tabs.
Citation Formats
Mori, H, Igarashi, J, and Sakata, H.
Electrical properties of V205-ZnO-TeO2 glasses. V205-ZnO-TeO2 kei garasu no denki dendo.
Japan: N. p.,
1993.
Web.
Mori, H, Igarashi, J, & Sakata, H.
Electrical properties of V205-ZnO-TeO2 glasses. V205-ZnO-TeO2 kei garasu no denki dendo.
Japan.
Mori, H, Igarashi, J, and Sakata, H.
1993.
"Electrical properties of V205-ZnO-TeO2 glasses. V205-ZnO-TeO2 kei garasu no denki dendo."
Japan.
@misc{etde_7207468,
title = {Electrical properties of V205-ZnO-TeO2 glasses. V205-ZnO-TeO2 kei garasu no denki dendo}
author = {Mori, H, Igarashi, J, and Sakata, H}
abstractNote = {It is known that glasses contained Transition Metal Oxide (TMO) such as V2O5 show a semi-conductivity, those conductive mechanism has been understood according to the Small Polaron Hopping (SPH) theory developed by Mott and Austin. Authors investigated the glass formation regions, de-conductivity([sigma]) and the conductive mechanism for V2O5-Bi2O3-TeO2 glasses as a tellurite glass containing the TMO. It was clarified that the adiabatic SPH and the non-adiabatic SPH are satisfied for the glasses with V2O5>50 mol% and V2O5<50 mol%, respectively. In this study, the electrical properties of V2O5-ZnO-TeO2 glasses were investigated, and the SPH conductions were considered from the standpoints of the polaron band width J, carrier mobility [mu], carrier density Nc. The conductive mechanism and dependence of V2O5 density on Seebeck coefficients Q were clarified in which a formation region of V2O5 is from 30 to 60 mol%. 40 refs., 9 figs., 2 tabs.}
journal = []
volume = {101:1180}
journal type = {AC}
place = {Japan}
year = {1993}
month = {Dec}
}
title = {Electrical properties of V205-ZnO-TeO2 glasses. V205-ZnO-TeO2 kei garasu no denki dendo}
author = {Mori, H, Igarashi, J, and Sakata, H}
abstractNote = {It is known that glasses contained Transition Metal Oxide (TMO) such as V2O5 show a semi-conductivity, those conductive mechanism has been understood according to the Small Polaron Hopping (SPH) theory developed by Mott and Austin. Authors investigated the glass formation regions, de-conductivity([sigma]) and the conductive mechanism for V2O5-Bi2O3-TeO2 glasses as a tellurite glass containing the TMO. It was clarified that the adiabatic SPH and the non-adiabatic SPH are satisfied for the glasses with V2O5>50 mol% and V2O5<50 mol%, respectively. In this study, the electrical properties of V2O5-ZnO-TeO2 glasses were investigated, and the SPH conductions were considered from the standpoints of the polaron band width J, carrier mobility [mu], carrier density Nc. The conductive mechanism and dependence of V2O5 density on Seebeck coefficients Q were clarified in which a formation region of V2O5 is from 30 to 60 mol%. 40 refs., 9 figs., 2 tabs.}
journal = []
volume = {101:1180}
journal type = {AC}
place = {Japan}
year = {1993}
month = {Dec}
}