A new trivalent gallium (Ga3+) ion conducting solid was successfully developed by selecting the three dimensionally well-ordered NASICON-type structure. Although Ga is accepted as a species whose covalency is so high that trivalent Ga3+ ion is inappropriate ionic species in solids to migrate due to its strong bonding with surrounding ions such as oxide anion, we demonstrated the trivalent Ga3+ ion conduction in the NASICON-type (GaxTi1−x)4/(4−x)Nb(PO4)3 solids by strictly selecting the constituent cations. Among the samples prepared, (Ga0.1Ti0.9)40/39Nb(PO4)3 showed the highest Ga3+ ion conductivity of 5.1 × 10−5 S cm−1 at 600 °C
The NASICON-type Na1.5Nb0.3Zr1.5(PO4)(3) was prepared by solid state reaction of Nb2O5 and the precu...
NoThe need for greater energy efficiency has garnered increasing support for the use of fuel-cell te...
The ionic and electronic transport properties of La 0 gSr,,Ga,_MeO 3 _ (with Me = Fe or Cr and x = 0...
AbstractA new trivalent gallium (Ga3+) ion conducting solid was successfully developed by selecting ...
Divalent ion-conducting solid electrolytes with NASICON-type three-dimensional network structures (M...
Solid state ionic conductors are important from an industrial viewpoint. A variety of such conductor...
A novel tetravalent tin (Sn4+) ion conducting solid electrolyte of the NASICON-type, Sn(Nb1−xWx)5/(5...
Na Super Ionic Conductor (NASICON) materials are an important class of solid-state electrolytes owin...
Abstract. Solid state ionic conductors are important from an industri l viewpoint. A variety of such...
Novel melilite-type gallium-oxides are attracting attention as promising new oxide-ion conductors w...
Materials displaying high oxide-ion and/or proton conductivity have been attracting considerable int...
Traditionally materials with the fluorite and perovskite structures have dominated the research in t...
Oxygen-ion conductivity of the perovskite-type solid solutions (La,Sr)Ga1-zM2O3-delta (M = Ti, Cr, F...
Divalent calcium ion conducting solid electrolyte with a three dimensional NASICON-type structure, (...
Na+ Super-Ionic CONductors (NaSICON) consist of a 3D framework of corner-shared ZrO6 octahedra and (...
The NASICON-type Na1.5Nb0.3Zr1.5(PO4)(3) was prepared by solid state reaction of Nb2O5 and the precu...
NoThe need for greater energy efficiency has garnered increasing support for the use of fuel-cell te...
The ionic and electronic transport properties of La 0 gSr,,Ga,_MeO 3 _ (with Me = Fe or Cr and x = 0...
AbstractA new trivalent gallium (Ga3+) ion conducting solid was successfully developed by selecting ...
Divalent ion-conducting solid electrolytes with NASICON-type three-dimensional network structures (M...
Solid state ionic conductors are important from an industrial viewpoint. A variety of such conductor...
A novel tetravalent tin (Sn4+) ion conducting solid electrolyte of the NASICON-type, Sn(Nb1−xWx)5/(5...
Na Super Ionic Conductor (NASICON) materials are an important class of solid-state electrolytes owin...
Abstract. Solid state ionic conductors are important from an industri l viewpoint. A variety of such...
Novel melilite-type gallium-oxides are attracting attention as promising new oxide-ion conductors w...
Materials displaying high oxide-ion and/or proton conductivity have been attracting considerable int...
Traditionally materials with the fluorite and perovskite structures have dominated the research in t...
Oxygen-ion conductivity of the perovskite-type solid solutions (La,Sr)Ga1-zM2O3-delta (M = Ti, Cr, F...
Divalent calcium ion conducting solid electrolyte with a three dimensional NASICON-type structure, (...
Na+ Super-Ionic CONductors (NaSICON) consist of a 3D framework of corner-shared ZrO6 octahedra and (...
The NASICON-type Na1.5Nb0.3Zr1.5(PO4)(3) was prepared by solid state reaction of Nb2O5 and the precu...
NoThe need for greater energy efficiency has garnered increasing support for the use of fuel-cell te...
The ionic and electronic transport properties of La 0 gSr,,Ga,_MeO 3 _ (with Me = Fe or Cr and x = 0...