Abstract
Physical properties and application of solid electrolyte, particularly of inorganic solid electrolyte, are described. Ion conductors have been widely used not only for electric power application but also for sensors, gas separators, display elements, Coulomb meters, storage elements, etc. The most extensively used pacemakers now employ Li/I{sub 2}(PVP) primary batteries. Thin film lithium secondary battery has a feature of providing comparatively large electric current, with 2.5 V charging, 1.8 V discharging, and 3 mA.cm{sup {minus}2} short circuit current. The capacity of about 4 mAh per 1 cm{sup 2} electrode has been achieved. The most widely used solid electrolyte for the oxygen sensor is the stabilized ZrO{sub 2}. The relation of air/fuel mix proportion with the change in electromotive force is shown. Although solid electrolyte fuel cell is not yet put to practical use, a result of an experiment is introduced. Brief explanations are made on the oxygen pump, electrochromic display elements, Coulomb meter and voltage storage element. 18 refs., 11 figs., 6 tabs.
Fujiki, Yoshinori
[1]
- Science and Technology Agency, Tokyo (Japan)
Citation Formats
Fujiki, Yoshinori.
Applications of inorganic Ion-conductor.
Japan: N. p.,
1989.
Web.
Fujiki, Yoshinori.
Applications of inorganic Ion-conductor.
Japan.
Fujiki, Yoshinori.
1989.
"Applications of inorganic Ion-conductor."
Japan.
@misc{etde_5371606,
title = {Applications of inorganic Ion-conductor}
author = {Fujiki, Yoshinori}
abstractNote = {Physical properties and application of solid electrolyte, particularly of inorganic solid electrolyte, are described. Ion conductors have been widely used not only for electric power application but also for sensors, gas separators, display elements, Coulomb meters, storage elements, etc. The most extensively used pacemakers now employ Li/I{sub 2}(PVP) primary batteries. Thin film lithium secondary battery has a feature of providing comparatively large electric current, with 2.5 V charging, 1.8 V discharging, and 3 mA.cm{sup {minus}2} short circuit current. The capacity of about 4 mAh per 1 cm{sup 2} electrode has been achieved. The most widely used solid electrolyte for the oxygen sensor is the stabilized ZrO{sub 2}. The relation of air/fuel mix proportion with the change in electromotive force is shown. Although solid electrolyte fuel cell is not yet put to practical use, a result of an experiment is introduced. Brief explanations are made on the oxygen pump, electrochromic display elements, Coulomb meter and voltage storage element. 18 refs., 11 figs., 6 tabs.}
journal = []
volume = {219}
journal type = {AC}
place = {Japan}
year = {1989}
month = {Mar}
}
title = {Applications of inorganic Ion-conductor}
author = {Fujiki, Yoshinori}
abstractNote = {Physical properties and application of solid electrolyte, particularly of inorganic solid electrolyte, are described. Ion conductors have been widely used not only for electric power application but also for sensors, gas separators, display elements, Coulomb meters, storage elements, etc. The most extensively used pacemakers now employ Li/I{sub 2}(PVP) primary batteries. Thin film lithium secondary battery has a feature of providing comparatively large electric current, with 2.5 V charging, 1.8 V discharging, and 3 mA.cm{sup {minus}2} short circuit current. The capacity of about 4 mAh per 1 cm{sup 2} electrode has been achieved. The most widely used solid electrolyte for the oxygen sensor is the stabilized ZrO{sub 2}. The relation of air/fuel mix proportion with the change in electromotive force is shown. Although solid electrolyte fuel cell is not yet put to practical use, a result of an experiment is introduced. Brief explanations are made on the oxygen pump, electrochromic display elements, Coulomb meter and voltage storage element. 18 refs., 11 figs., 6 tabs.}
journal = []
volume = {219}
journal type = {AC}
place = {Japan}
year = {1989}
month = {Mar}
}