2010 - 周 迪
学术论文
2010:
[1] Zhou D*, Wang H, Pang LX, Yao X. Low-firing of BiSbO4 microwave dielectric ceramic with V2O5-CuO addition [J]. Materials Chemistry and Physics, 2010, 119: 149-152. 
[2] Zhou D*, Randall C, Wang H, Pang LX, Yao X. Microwave dielectric ceramics in Li2O-Bi2O3-MoO3 system with ultra low sintering temperatures [J]. Journal of the American Ceramic Society, 2010, 93(4): 1096-1100.
[3] Zhou D*, Randall C, Baker A, Wang H, Pang LX, Yao X. Dielectric properties of an ultra-low temperature co-firing Bi2Mo2O9 multilayer [J]. Journal of the American Ceramic Society, 2010, 93(5): 1443-1446.
[4] Zhou D*, Randall CA, Wang H, et al. Ultra-Low Firing High-k Scheelite Structures Based on [(Li0.5Bi0.5)xBi1-x][MoxV1-x]O4 Microwave Dielectric Ceramics, Journal of the American Ceramic Society, 2010 93(8): 2147-2150.
[5] Zhou D*, Wang H, Wang QP, et al. Microwave dielectric properties and Raman spectroscopy of scheelite solid solution [(Li0.5Bi0.5)1-xCax]MoO4 ceramics with ultra-low sintering temperatures, Functional Materials Letters, 2010 3(4): 253-257.
[6] Pang LX, Zhou D, A low-firing microwave dielectric material in Li2O-ZnO-Nb2O5 system, Materials Letters, 2010 64(22): 2413-2415.
[7] Pang LX, Wang H, Zhou D, et al. A new temperature stable microwave dielectric with low-firing temperature in Bi2MoO6-TiO2 system, Journal of Alloys and Compounds, 2011 493(1-2): 626-629.
[8] Liu WH, Wang H, Zhou D, et al. Dielectric Properties of Low-Firing Bi2Mo2O9 Thick Films Screen Printed on Al Foils and Alumina Substrates. Journal of the American Ceramic Society, 2010 93(8): 2202-2206
[9] Dai W, Wang H, Wang MJ, Shen ZY, Li DC, Zhou D, Shi JZ, Fabrication of three-dimensional electromagnetic band-gap structure with high-K dielectric ceramics by rapid-prototyping, Journal of Electroceramics, 2010 25(2-4): 218-222.
[10] Pang LX, Wang H, Zhou D, et al. Low-temperature sintering and microwave dielectric properties of TiO2-based LTCC materials, Journal of Materials Science-Materials in Electronics, 2010 21(12): 1285-1292.
[11] Pang LX, Zhou D, Microwave Dielectric Properties of Low-Firing Li2MO3 (M = Ti, Zr, Sn) Ceramics with B2O3-CuO Addition, Journal of the American Ceramic Society, 2010 93(11): 3614-3617.
[12] Pang LX, Wang H, Zhou D, et al. Phase evolution, Raman spectroscopy and microwave dielectric behavior of (Li1/4Nb3/4) doped ZrO2-TiO2 system, Applied Physics a-Materials Science & Processing, 2010 100(4): 1205-1209.
[13] Pang LX, Wang H, Zhou D, et al. Sintering behavior and microwave dielectric properties of Ba6-3xNd8+2xTi18O54 (x=2/3) ceramics coated by H3BO3-TEOS sol-gel, Materials Chemistry and Physics, 2010 123(2-3): 727-730.
[14] Dai W, Wang H, Zhou D, et al. The Ultra-Wide Band Gap Property Induced by Lattice Period Gradually Changing in Three-Dimensional Photonic Crystals, Journal of the American Ceramic Society, 2010 93(12): 3980-3982.
[2] Zhou D*, Randall C, Wang H, Pang LX, Yao X. Microwave dielectric ceramics in Li2O-Bi2O3-MoO3 system with ultra low sintering temperatures [J]. Journal of the American Ceramic Society, 2010, 93(4): 1096-1100.
[3] Zhou D*, Randall C, Baker A, Wang H, Pang LX, Yao X. Dielectric properties of an ultra-low temperature co-firing Bi2Mo2O9 multilayer [J]. Journal of the American Ceramic Society, 2010, 93(5): 1443-1446.
[4] Zhou D*, Randall CA, Wang H, et al. Ultra-Low Firing High-k Scheelite Structures Based on [(Li0.5Bi0.5)xBi1-x][MoxV1-x]O4 Microwave Dielectric Ceramics, Journal of the American Ceramic Society, 2010 93(8): 2147-2150.
[5] Zhou D*, Wang H, Wang QP, et al. Microwave dielectric properties and Raman spectroscopy of scheelite solid solution [(Li0.5Bi0.5)1-xCax]MoO4 ceramics with ultra-low sintering temperatures, Functional Materials Letters, 2010 3(4): 253-257.
[6] Pang LX, Zhou D, A low-firing microwave dielectric material in Li2O-ZnO-Nb2O5 system, Materials Letters, 2010 64(22): 2413-2415.
[7] Pang LX, Wang H, Zhou D, et al. A new temperature stable microwave dielectric with low-firing temperature in Bi2MoO6-TiO2 system, Journal of Alloys and Compounds, 2011 493(1-2): 626-629.
[8] Liu WH, Wang H, Zhou D, et al. Dielectric Properties of Low-Firing Bi2Mo2O9 Thick Films Screen Printed on Al Foils and Alumina Substrates. Journal of the American Ceramic Society, 2010 93(8): 2202-2206
[9] Dai W, Wang H, Wang MJ, Shen ZY, Li DC, Zhou D, Shi JZ, Fabrication of three-dimensional electromagnetic band-gap structure with high-K dielectric ceramics by rapid-prototyping, Journal of Electroceramics, 2010 25(2-4): 218-222.
[10] Pang LX, Wang H, Zhou D, et al. Low-temperature sintering and microwave dielectric properties of TiO2-based LTCC materials, Journal of Materials Science-Materials in Electronics, 2010 21(12): 1285-1292.
[11] Pang LX, Zhou D, Microwave Dielectric Properties of Low-Firing Li2MO3 (M = Ti, Zr, Sn) Ceramics with B2O3-CuO Addition, Journal of the American Ceramic Society, 2010 93(11): 3614-3617.
[12] Pang LX, Wang H, Zhou D, et al. Phase evolution, Raman spectroscopy and microwave dielectric behavior of (Li1/4Nb3/4) doped ZrO2-TiO2 system, Applied Physics a-Materials Science & Processing, 2010 100(4): 1205-1209.
[13] Pang LX, Wang H, Zhou D, et al. Sintering behavior and microwave dielectric properties of Ba6-3xNd8+2xTi18O54 (x=2/3) ceramics coated by H3BO3-TEOS sol-gel, Materials Chemistry and Physics, 2010 123(2-3): 727-730.
[14] Dai W, Wang H, Zhou D, et al. The Ultra-Wide Band Gap Property Induced by Lattice Period Gradually Changing in Three-Dimensional Photonic Crystals, Journal of the American Ceramic Society, 2010 93(12): 3980-3982.
(创新港)
