Search Results

Preparation of a Calcium Titanium Phosphate Glass-Ceramic with Improved Chemical Durability

Authors: Kasuga, Toshihiro; Kimata, Takafumi; Obata, Akiko

Source: Journal of the American Ceramic Society, Volume 92, Number 8, August 2009 , pp. 1709-1712(4)

Publisher: Blackwell Publishing

Chemical Analysis with Tin Oxide Gas Sensors: Choice of Additives, Method of Operation and Analysis of Numerical Signal

Authors: Frank, K.; Magapu, V.; Schindler, V.; Kohler, H.; Keller, H.B.; Seifert, R.

Source: Sensor Letters, Volume 6, Number 6, December 2008 , pp. 908-911(4)

Publisher: American Scientific Publishers

Preparation of NASICON Using Sol-Gel Method and Reactivity with Alkali Carbonate for Potentiometric CO₂ Gas Sensor

Authors: Aono, Hiromichi; Nishimura, Kengo; Yamamoto, Naoko; Itagaki, Yoshiteru; Sadaoka, Yoshihiko

Source: Sensor Letters, Volume 6, Number 6, December 2008 , pp. 979-982(4)

Publisher: American Scientific Publishers

Caustic Recycle from Hanford Tank Waste Using NaSICON Ceramic Membranes

Authors: Fountain, M. S.; Kurath, D. E.; Sevigny, G. J.; Poloski, A. P.; Pendleton, J.; Balagopal, S.; Quist, M.; Clay, D.

Source: Separation Science and Technology, Volume 43, Numbers 9-10, July 2008 , pp. 2321-2342(22)

Publisher: Taylor and Francis Ltd

Preparation, characterization and conductivity studies of Li_3−2x Al_2−x Sb _x (PO₄)₃

Authors: Anantharamulu, N.; Prasad, G.; Vithal, M.

Source: Bulletin of Materials Science, Volume 31, Number 2, April 2008 , pp. 133-138(6)

Publisher: Springer

New NASICON type oxyanion high capacity anode, Li₂Co₂(MoO₄)₃, for lithium-ion batteries: preliminary studies

Authors: Michael, M.; Begam, K.; Cloke, Michael; Prabaharan, S.

Source: Journal of Solid State Electrochemistry, Volume 12, Numbers 7-8, August 2008 , pp. 1025-1029(5)

Publisher: Springer

New NASICON type oxyanion high capacity anode, Li2Co2(MoO4)3, for lithium-ion batteries: preliminary studies

Authors: Michael, M.; Begam, K.; Cloke, Michael; Prabaharan, S.

Source: Journal of Solid State Electrochemistry, Volume 12, Numbers 7-8, August 2008 , pp. 1035-1035(1)

Publisher: Springer

Structural and electrical conductivity studies of Li _x AlZr[PO₄]₃ (x = 1.8, 2.0, 2.2), solid electrolyte for lithium-rechargeable batteries

Authors: Savitha, T.; Selvasekarapandian, S.; Ramya, C.

Source: Journal of Solid State Electrochemistry, Volume 12, Numbers 7-8, August 2008 , pp. 857-860(4)

Publisher: Springer

Phase Stability and Ionic Conductivity of Solid Solutions with NASICON Structure

Authors: Novoselov, Andrey; Zhuravleva, Mariya; Zakalyukin, Ruslan; Fomichev, Valeriy; Zimina, Galina

Source: Journal of the American Ceramic Society, Volume 91, Number 4, April 2008 , pp. 1377-1379(3)

Publisher: Blackwell Publishing

Electrical conduction and relaxation mechanism in Li₂AlZr[PO₄]₃

Authors: Savitha, T.; Selvasekarapandian, S.; Ramya, C.; Bhuvaneswari, M.; Angelo, P.

Source: Journal of Materials Science, Volume 42, Number 14, July 2007 , pp. 5470-5475(6)

Publisher: Springer

Lithium Ion-Conducting Glass-Ceramics of Li_1.5Al_0.5Ge_1.5(PO₄)₃-xLi₂O (x=0.0-0.20) with Good Electrical and Electrochemical Properties

Authors: Xu, Xiaoxiong; Wen, Zhaoyin; Wu, Xiangwei; Yang, Xuelin; Gu, Zhonghua

Source: Journal of the American Ceramic Society, Volume 90, Number 9, September 2007 , pp. 2802-2806(5)

Publisher: Blackwell Publishing

Preparation of NASICON-type titanium phosphate Mg_0˙5Ti₂(PO₄)₃ from magnesium borophosphate glasses

Authors: Mošner, P.; Pospíšil, J.; Koudelka, L.

Source: Physics and Chemistry of Glasses - European Journal of Glass Science and Technology Part B, Volume 48, Number 3, June 2007 , pp. 160-163(4)

Publisher: Society of Glass Technology

Electrochemical catalysts for hydrocarbon combustion

Authors: Billard, A.; Vernoux, P.

Source: Topics in Catalysis, Volume 44, Number 3, June 2007 , pp. 369-377(9)

Publisher: Springer

Preparation, characterization, conductivity and thermal expansion studies of Ca_0.5SbMP₃O₁₂ (M = Al, Fe, Cr)

Authors: Rambabu, G.; Koteswara Rao, K.; Anantharamulu, N.; Raghavender, M.; Prasad, G.; Kumar, V.; Reddy, C.; Vithal, Muga

Source: Journal of Materials Science, Volume 42, Number 10, May 2007 , pp. 3613-3620(8)

Publisher: Springer

Chemical and electrochemical processes in low-temperature superionic hydrogen sulfide sensors

Authors: Levchenko, A.; Dobrovolsky, Yu.; Bukun, N.; Leonova, L.; Zyubina, T.; Neudachina, V.; Yashina, L.; Tarasov, A.; Shatalova, T.; Shtanov, V.

Source: Russian Journal of Electrochemistry, Volume 43, Number 5, May 2007 , pp. 552-560(9)

Publisher: MAIK Nauka/Interperiodica

Characteristics of thick-film CO₂ sensors based on NASICON with Na₂CO₃-CaCO₃ auxiliary phases

Authors: Shim, Han; Kang, Ju; Choi, Jung; Yoo, Kwang

Source: Journal of Electroceramics, Volume 17, Numbers 2-4, December 2006 , pp. 971-974(4)

Publisher: Springer

A study of copper stoichiometry and phase relationships in the copper-zirconium phosphate system: CuZr₂(PO₄)₃ – Cu_0.5Zr₂(PO₄)₃

Authors: Christiansen, R.; Warner, T.

Source: Journal of Materials Science, Volume 41, Number 4, February 2006 , pp. 1197-1205(9)

Publisher: Springer

Ionic and superionic conduction in NASICON-like structures of the Na₃Sc₂(PO₄)₃ type

Authors: Nogay, A.; Huh, Young; Yugay, K.

Source: Physics of the Solid State, Volume 47, Number 6, June 2005 , pp. 1076-1082(7)

Publisher: MAIK Nauka/Interperiodica

Fabrication, characterisation and application of (8 mol% Y₂O₃) ZrO₂ thin film on Na₃Zr₂Si₂PO₁₂ substrate for sensing CO₂ gas

Authors: Wang, L.; Pan, L.; Sun, J.; Hong, Y.; Kale, G.

Source: Journal of Materials Science, Volume 40, Number 7, April 2005 , pp. 1717-1723(7)

Publisher: Springer

Preparation and Electrical Properties of Dense Ceramics with NASICON Composition Sintered at Reduced Temperatures

Authors: Schäf, O.; Weibel, A.; Llewellyn, P.; Knauth, P.; Kaabbuathong, N.; Vona, M.; Licoccia, S.; Traversa, E.

Source: Journal of Electroceramics, Volume 13, Numbers 1-3, July 2004 , pp. 817-823(7)

Publisher: Springer