Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Kukli, Kaupo
Ritala, Mikko
Leskelä, Markku
and
Lappalainen, Reijo
1998.
Niobium Oxide Thin Films Grown by Atomic Layer Epitaxy.
Chemical Vapor Deposition,
Vol. 4,
Issue. 1,
p.
29.
Houivet, D.
El Fallah, J.
and
Haussonne, J.-M.
1999.
Phases in La2O3 and NiO doped (Zr,Sn)TiO4 microwave dielectric ceramics.
Journal of the European Ceramic Society,
Vol. 19,
Issue. 6-7,
p.
1095.
Park, Yong H.
Shin, Moo Y.
Ryu, Ji M.
and
Ko, Kyung H.
1999.
The Control of Zn for ZST Microwave Ceramics With Low Sintering Temperature.
MRS Proceedings,
Vol. 606,
Issue. ,
Kim, Woo Sup
Kim, Eung Soo
and
Yoon, Ki Hyun
1999.
Effect of excess TiO2on the microwave dielectric properties of the Ca2/5Sm2/5TiO3-Li1/2Ln1/2TiO3(Ln=Sm, Nd) ceramics.
Ferroelectrics,
Vol. 223,
Issue. 1,
p.
277.
Kukli, Kaupo
Ritala, Mikko
and
Leskelä, Markku
1999.
Properties of atomic layer deposited (Ta1−xNbx)2O5 solid solution films and Ta2O5–Nb2O5 nanolaminates.
Journal of Applied Physics,
Vol. 86,
Issue. 10,
p.
5656.
Xu, Z.Y.
and
Chen, X.M.
1999.
Dielectric ceramics with TiO2 rich compositions in Bi2O3–TiO2 system.
Materials Letters,
Vol. 39,
Issue. 1,
p.
18.
Jean, Jau‐Ho
and
Lin, Shih‐Chun
2000.
Low‐Fire Processing of ZrO2–SnO2–TiO2 Ceramics.
Journal of the American Ceramic Society,
Vol. 83,
Issue. 6,
p.
1417.
Park, Yong H.
Shin, Moo Y.
Kim, Hyung H.
and
Ko, Kyung H.
2000.
Mechanism of Quality Factor Compensation by Nb2O5 Addition for Dielectric Properties of Low-T Sintered ZST Microwave Ceramics.
MRS Proceedings,
Vol. 658,
Issue. ,
Park, Yong Hwan
Ryu, Ji Man
Shin, Moo Young
Ko, Kyung Hyun
Kim, Dong Wan
and
Hong, Kug‐Sun
2001.
Effect of Nb2O5/ZnO Addition on Microwave Properties of (Zr0.8Sn0.2)TiO4 Ceramics.
Journal of the American Ceramic Society,
Vol. 84,
Issue. 11,
p.
2542.
Huang, Cheng-Liang
Weng, Min-Hung
and
Chen, Hui-Liang
2001.
Effects of additives on microstructures and microwave dielectric properties of (Zr, Sn)TiO4 ceramics.
Materials Chemistry and Physics,
Vol. 71,
Issue. 1,
p.
17.
Ahn, Yil Seok
Yoon, Ki Hyun
and
Kim, Eung Soo
2001.
Effect of Sb2O5on the microwave dielectric properties of (Zr0.8Sn0.2)TiO4ceramics.
Ferroelectrics,
Vol. 262,
Issue. 1,
p.
11.
Cho, Y.S.
and
Yoon, K.H.
2001.
Handbook of Advanced Electronic and Photonic Materials and Devices.
p.
175.
Zhang, S.X
Li, J.B
Cao, J
Zhai, H.Z
and
Zhang, B
2001.
Preparation, microstructure and microwave dielectric properties of ZrxTi1−xO4 (x=0.40–0.60) ceramics.
Journal of the European Ceramic Society,
Vol. 21,
Issue. 16,
p.
2931.
Zhang, Shu-Xia
Li, Jian-Bao
Zhai, Hua-Zhang
and
Dai, Jin-Hui
2002.
Synthesis and characterization of La2O3/BaO-doped (Zr0.8Sn0.2)TiO4 microwave ceramics.
Ceramics International,
Vol. 28,
Issue. 4,
p.
407.
Zhang, S.X.
Li, J.B.
Zhai, H.Z.
and
Dai, J.H.
2003.
Low temperature sintering and dielectric properties of (Zr0.8Sn0.2)TiO4 microwave ceramics using La2O3/BaO additives.
Materials Chemistry and Physics,
Vol. 77,
Issue. 2,
p.
470.
Kim, Woo Sup
Kim, Joon Hee
Kim, Jong Han
Hur, Kang Heon
and
Lee, Jong Yeon
2003.
Microwave dielectric properties of the ZrO2–ZnO–Ta2O5–TiO2 systems.
Materials Chemistry and Physics,
Vol. 79,
Issue. 2-3,
p.
204.
2003.
Influence of ZnO-Nb2O5Substitution on Microwave Dielectric Properties of the ZrTi04System.
Journal of the Korean Ceramic Society,
Vol. 40,
Issue. 4,
p.
346.
Kuang, X.
Allix, M. M. B.
Claridge, J. B.
Niu, H. J.
Rosseinsky, M. J.
Ibberson, R. M.
and
Iddles, D. M.
2006.
Crystal structure, microwave dielectric properties and AC conductivity of B-cation deficient hexagonal perovskites La5MxTi4–xO15 (x = 0.5, 1; M = Zn, Mg, Ga, Al).
Journal of Materials Chemistry,
Vol. 16,
Issue. 11,
p.
1038.
Kuang, Xiaojun
Jing, Xiping
and
Tang, Zongxi
2006.
Dielectric Loss Spectrum of Ceramic MgTiO3 Investigated by AC Impedance and Microwave Resonator Measurements.
Journal of the American Ceramic Society,
Vol. 89,
Issue. 1,
p.
241.
Pamu, D.
Rao, G. Lakshmi Narayana
and
Raju, K.C. James
2007.
Effect of particle size and ZnO addition on microwave dielectric properties of nanocrystalline (Zr0.8Sn0.2) TiO4ceramics.
Advances in Applied Ceramics,
Vol. 106,
Issue. 4,
p.
202.