i’˜‘j

1. ‹@”\ŦƒKƒ‰ƒXEƒiƒmƒKƒ‰ƒX‚ĖÅV‹Zp
–îāV “N•v
ƒGƒkEƒeƒB[EƒGƒX (2006).

2. ƒPƒC‘f‰ŧ‡•Ļ‚Ė‘I’č‚ƍœK—˜—p‹Zp@i‰šŠŠj
–îāV “N•v
‹Zpî•ņ‹Ķ‰ï (2006).

3. ÅV@“Y‰ÁÜ‘SW
–îāV “N•v
ƒGƒkEƒeƒB[EƒGƒX (2006).


i‘āE‰ðā“™j

1. ‘˜_Fl‚Ɗ‹Ŧ‚É—D‚ĩ‚ĒƒKƒ‰ƒX
–îāV “N•v
New Glass, 21(1), 3 (2006).

2. “ÁWF“dˆĘƒXƒeƒbƒv”―ŽË—Ķ‘Š’č‚É‚æ‚é”’‹ā•\–Ę”―‰ž‰ß’ö‚Ė’ĮÕ
—äd ‰·
Electrochemistry, 74(5), 397-401 (2006).

i˜_•ķj

1. Extraction of heavy metal ions from waste colored glass through phase separation
D.Chen, H.Masui, H.Miyoshi, T.Akai and T.Yazawa
Waste Management, 26, 1017-1023 (2006).

2. Refined position of the morphotropic phase boundary and compositional search of Pb(Mg1/3Nb2/3)O3-PbZrO3-PbTiO3 ceramics for piezoelectric applications
M. Kobune, Y. Maekawa, A. Mineshige, T. Yazawa and H. Nishioka
J. Ceram. Soc. Jpn., 114, 241-246 (2006).

3. Effects of manganese addition on pyroelectric properties of (Bi0.5Na0.5TiO3)0.94(BaTiO3)0.06 ceramics
J. Abe, M. Kobune, T. Nishimura, T. Yazawa and Y. Nakai
Integrated Ferroelectrics, 80, 1-9 (2006).

4. Fabrication and dielectric properties of lead-free inorganic particles-epoxy resin composites
M. Kobune, K. Takasaki and T. Yazawa
Jpn. J. Appl. Phys., 45, 7371-7376 (2006).

5. Vapor-phase deposition for dense CeO2 film growth on porous substrates
A. Mineshige, M. Inaba, S. Nakanishi, M. Kobune, T. Yazawa, K. Kikuchi, Z. Ogumi
J. Electrochem. Soc., 153 [6], A975-A981 (2006).

6. Porous metal tubular support for novel solid oxide fuel cell design
A. Mineshige, K. Fukushima, S. Okada, T. Kikuchi, M. Kobune, T. Yazawa, K. Kikuchi, M. Inaba and Z. Ogumi
Electrochem. Solid-St. Lett., 9 [9], A427-A429 (2006).

7. Oxygen nonstoichiometry, mixed valency and mixed conduction in (La,Sr)(Co,Fe)O3-ƒÂ
A. Mineshige, J. Abe, M. Kobune, Y. Uchimoto and T. Yazawa
Solid State Ionics, 177 [19-25], 1803-1806 (2006).

8. Raman study on defect structure of high temperature protonic conducting ceramics
A. Mineshige, S. Okada, M. Kobune and T. Yazawa
Solid State Ionics, 177 [26-32], 2443-2445 (2006).

9. Fabrication of hollow thin films of yttria-stabilized zirconia by chemical vapor infiltration using NiO as oxygen source
K. Kikuchi, K. Matsuo, A. Mineshige and Z. Ogumi
Solid State Ionics, 177[33-34], 2903-2909 (2006).

10. Yttria-stabilized zirconia thin films deposited on NiO-(Sm2O3)0.1(CeO2)0.8 substrates by chemical vapor infiltration
K. Kikuchi, F. Tamazaki, K. Okada and A. Mineshige
J. Power Sources, 162[2], 1053-1059 (2006).

11. Growth mechanism of thin films of yttria-stabilized zirconia by chemical vapor infiltration using NiO-ceria substrate as oxygen source
K. Kikuchi, K. Okada and A. Mineshige
J. Power Sources, 162[2], 1060-1066 (2006).