ACNP - Italian Periodicals Catalogue

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Results: 1-25 | 26-50 | 51-57

Results: 1-25/57

CO2 gas sensor with the combination of tetravalent zirconium cation and divalent oxide anion conducting solids with water-insoluble oxycarbonate electrode

Authors: Imanaka, N Ogura, A Kamikawa, M Adachi, G

Citation: N. Imanaka et al., CO2 gas sensor with the combination of tetravalent zirconium cation and divalent oxide anion conducting solids with water-insoluble oxycarbonate electrode, ELECTROCH C, 3(8), 2001, pp. 451-454

A chlorine gas sensor based on the combination of Mg2+ cation conducting and O2- anion conducting solid electrolytes with lanthanum oxychloride as anauxiliary electrode

Authors: Imanaka, N Okamoto, K Adachi, G

Citation: N. Imanaka et al., A chlorine gas sensor based on the combination of Mg2+ cation conducting and O2- anion conducting solid electrolytes with lanthanum oxychloride as anauxiliary electrode, ELECTROCH C, 3(2), 2001, pp. 49-51

Multivalent cation conducting novel solid electrolytes

Authors: Imanaka, N Tamura, S Adachi, GY

Citation: N. Imanaka et al., Multivalent cation conducting novel solid electrolytes, ELECTROCH, 69(10), 2001, pp. 802-805

Carbon dioxide gas sensing with the combination of divalent magnesium cation and divalent oxide anion conducting solid electrolytes with neodymium oxycarbonate based auxiliary electrode

Authors: Imanaka, N Kamikawa, M Adachi, G

Citation: N. Imanaka et al., Carbon dioxide gas sensing with the combination of divalent magnesium cation and divalent oxide anion conducting solid electrolytes with neodymium oxycarbonate based auxiliary electrode, ELECTROANAL, 13(15), 2001, pp. 1291-1294

Rare earth ion conduction in solids

Authors: Adachi, G Imanaka, N Tamura, S

Citation: G. Adachi et al., Rare earth ion conduction in solids, J ALLOY COM, 323, 2001, pp. 534-539

Trivalent cation conduction in R1/3Zr2(PO4)(3) (R : rare earths) with the NASICON-type structure

Authors: Tamura, S Imanaka, N Adachi, G

Citation: S. Tamura et al., Trivalent cation conduction in R1/3Zr2(PO4)(3) (R : rare earths) with the NASICON-type structure, J ALLOY COM, 323, 2001, pp. 540-544

Carbon dioxide gas sensor with multivalent cation conducting solid electrolytes

Authors: Imanaka, N Kamikawa, M Tamura, S Adachi, G

Citation: N. Imanaka et al., Carbon dioxide gas sensor with multivalent cation conducting solid electrolytes, SENS ACTU-B, 77(1-2), 2001, pp. 301-306

A CO2 sensor based on a Sc3+ conducting SC1/3Zr2(PO4)(3) solid electrolyte

Authors: Tamura, S Imanaka, N Kamikawa, M Adachi, G

Citation: S. Tamura et al., A CO2 sensor based on a Sc3+ conducting SC1/3Zr2(PO4)(3) solid electrolyte, SENS ACTU-B, 73(2-3), 2001, pp. 205-210

Optimization of Sc3+ ion conduction in NASICON type solid electrolytes

Authors: Tamura, S Imanaka, N Adachi, G

Citation: S. Tamura et al., Optimization of Sc3+ ion conduction in NASICON type solid electrolytes, CHEM LETT, (7), 2001, pp. 672-673

High performance CO2 gas sensing with combination of multivalent ion conducting solid electrolytes with water-insoluble auxiliary electrode

Authors: Imanaka, N Ogura, A Kamikawa, M Adachi, GY

Citation: N. Imanaka et al., High performance CO2 gas sensing with combination of multivalent ion conducting solid electrolytes with water-insoluble auxiliary electrode, CHEM LETT, (7), 2001, pp. 718-719

Extraordinary high tetravalent cation conducting behaviors in solid

Authors: Imanaka, N Ueda, T Adachi, GY

Citation: N. Imanaka et al., Extraordinary high tetravalent cation conducting behaviors in solid, CHEM LETT, (5), 2001, pp. 446-447

Chloride ion conducting characteristics in rare earth oxychlorides

Authors: Imanaka, N Okamoto, K Adachi, G

Citation: N. Imanaka et al., Chloride ion conducting characteristics in rare earth oxychlorides, CHEM LETT, (2), 2001, pp. 130-131

Pressure-induced amorphization in negative thermal expansion Sc-2(WO4)(3)

Authors: Secco, RA Liu, H Imanaka, N Adachi, G

Citation: Ra. Secco et al., Pressure-induced amorphization in negative thermal expansion Sc-2(WO4)(3), J MAT SCI L, 20(14), 2001, pp. 1339-1340

High temperature P-31 NMR study on Mg2+ ion conductors

Authors: Kawamura, J Morota, K Kuwata, N Nakamura, Y Maekawa, H Hattori, T Imanaka, N Okazaki, Y Adachi, GY

Citation: J. Kawamura et al., High temperature P-31 NMR study on Mg2+ ion conductors, SOL ST COMM, 120(7-8), 2001, pp. 295-298

Direct evidence for trivalent cationic conduction in Nd3+-beta ''-Al2O3

Authors: Kohler, J Imanaka, N Urland, W Adachi, G

Citation: J. Kohler et al., Direct evidence for trivalent cationic conduction in Nd3+-beta ''-Al2O3, ANGEW CHEM, 39(5), 2000, pp. 904

Divalent magnesium ionic conduction in Mg1-2x(Zr1-xNbx)(4)P6O24 (x=0-0.4) solid solutions

Authors: Imanaka, N Okazaki, Y Adachi, G

Citation: N. Imanaka et al., Divalent magnesium ionic conduction in Mg1-2x(Zr1-xNbx)(4)P6O24 (x=0-0.4) solid solutions, EL SOLID ST, 3(7), 2000, pp. 327-329

Divalent magnesium ion conducting characteristics in phosphate based solidelectrolyte composites

Authors: Imanaka, N Okazaki, Y Adachi, G

Citation: N. Imanaka et al., Divalent magnesium ion conducting characteristics in phosphate based solidelectrolyte composites, J MAT CHEM, 10(6), 2000, pp. 1431-1435

A CO2 sensor based on a trivalent ion conducting Sc1/3Zr2(PO4)(3) solid electrolyte

Authors: Tamura, S Imanaka, N Kamikawa, M Adachi, G

Citation: S. Tamura et al., A CO2 sensor based on a trivalent ion conducting Sc1/3Zr2(PO4)(3) solid electrolyte, ADVAN MATER, 12(12), 2000, pp. 898-901

Trivalent rare earth ion conduction in the scandium tungstate type structure

Authors: Imanaka, N Tamura, S Kobayashi, Y Okazaki, Y Hiraiwa, M Ueda, T Adachi, G

Citation: N. Imanaka et al., Trivalent rare earth ion conduction in the scandium tungstate type structure, J ALLOY COM, 303, 2000, pp. 303-306

Trivalent ion conduction in molybdates having Sc-2(WO4)(3)-type structure

Authors: Imanaka, N Ueda, T Okazaki, Y Tamura, S Adachi, G

Citation: N. Imanaka et al., Trivalent ion conduction in molybdates having Sc-2(WO4)(3)-type structure, CHEM MATER, 12(7), 2000, pp. 1910-1913

Carbon dioxide gas sensing with the combination of divalent magnesium ion and oxide ion conducting solid electrolytes

Authors: Imanaka, N Yamamoto, T Adachi, G

Citation: N. Imanaka et al., Carbon dioxide gas sensing with the combination of divalent magnesium ion and oxide ion conducting solid electrolytes, CHEM LETT, (7), 2000, pp. 834-835

Tetravalent ion(Zr4+) conduction in solids

Authors: Imanaka, N Ueda, T Okazaki, Y Tamura, S Hiraiwa, M Adachi, GY

Citation: N. Imanaka et al., Tetravalent ion(Zr4+) conduction in solids, CHEM LETT, (5), 2000, pp. 452-453

CO2 gas sensing with the combination of trivalent Al3+ ion conducting Al-2(WO4)(3) single crystal solid and oxide ion conducting stabilized zirconia

Authors: Imanaka, N Kamikawa, M Hiraiwa, M Tamura, S Adachi, G

Citation: N. Imanaka et al., CO2 gas sensing with the combination of trivalent Al3+ ion conducting Al-2(WO4)(3) single crystal solid and oxide ion conducting stabilized zirconia, CHEM LETT, (1), 2000, pp. 68-69

Trivalent ion conducting solid electrolytes

Authors: Imanaka, N Kobayashi, Y Tamura, S Adachi, G

Citation: N. Imanaka et al., Trivalent ion conducting solid electrolytes, SOL ST ION, 136, 2000, pp. 319-324

A new trivalent cationic conducting solid electrolyte with NASICON-type structure

Authors: Tamura, S Imanaka, N Adachi, G

Citation: S. Tamura et al., A new trivalent cationic conducting solid electrolyte with NASICON-type structure, SOL ST ION, 136, 2000, pp. 423-426

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