发表论文 (Contributed Papers)


Welcome to my Researcher ID


专著(章) (Book Chapters/Review Papers):

 

1. Hong Wang, Xi Yao, "Bismuth-Based Pyrochlore Dielectric Ceramics for Microwave Applications", Chapter 17 in book “Handbook of Advanced Dielectric, Piezoelectric and Ferroelectric Materials” (Zuo-Guang Ye, Ed.), Woodhead Publishing Ltd, pp.503-538, 2008
2. Hong Wang, Feng Xiang, Haibo Yang, Kecheng Li, "Microwave Composites", Chapter in book “The Wiley Encyclopedia of Composites” (Gino Nicolais, Ed., 2nd Edition), Wiley Publisher, pp. 1814-1826, 2012



译著 (Translated Book): 
汪宏等译,《电子材料与器件原理》,S.O. Kasap著,西安交通大学出版社,2009。
S.O. Kasap, "Principles of Electronic Materials and Devices" (McGraw-Hill, 2006), Translated into Chinese by Hong Wang, et.al, published by Xi’an Jiaotong University Press, 2009


论文 (Peer Reviewed Papers): 

 

1.         Feihua Liu, Qi Li, Jin Cui, Zeyu Li, Guang Yang, Lijie Dong, Chuanxi Xiong*, Hong Wang*, Qing Wang*, “High-energy-density dielectric polymer nanocomposites with trilayered architecture”, Advanced Functional Materials, 27(20): 1606292, 2017.

2.         Zixiong Sun, Chunrui Ma, Ming Liu*, Jin Cui, Lu Lu, Jiangbo Lu, Xiaojie Lou, Lei Jin, Hong Wang*, Chun-Lin Jia, “Ultrahigh energy storage performance of lead-free oxide multilayer film capacitors via interface engineering”, Advanced Materials, 29:1604427, 2017.

3.         Lvkang Shen,  Liang Wu,  Quan Sheng,  Chunrui Ma*, Yong Zhang,  Lu Lu,  Ji Ma,  Jing Ma,  Jihong Bian,  Yaodong Yang,  Aiping Chen,  Xiaoli Lu,  Ming Liu*,  Hong Wang,  Chun-Lin Jia,Epitaxial Lift-Off of Centimeter-Scaled Spinel Ferrite Oxide Thin Films for Flexible Electronics”, Advanced Materials, 29, 1702411, 2017.

4.         Yifei Wang, Linxi Wang, Qibin Yuan, Yujuan Niu, Jie Chen, Qing Wang, and Hong Wang*, "Ultrahigh electric displacement and energy density in gradient layer-structured BaTiO3/PVDF nanocomposites with an interfacial barrier effect", Journal of Materials Chemistry A, 5(22):10849-55, 2017.

5.         Yifei Wang, Jin Cui, Linxi Wang, Qibin Yuan, Yujuan Niu, Jie Chen, Qing Wang, Hong Wang*, “Compositional tailoring effect on electric field distribution for significantly enhanced breakdown strength and restrained conductive loss in sandwich-structured ceramic/polymer nanocomposites”, Journal of Materials Chmistry A, 5(9):4710-4718, 2017.

6.         Qibin Yuan, Fangzhou Yao, Yifei Wang, Rong Ma, and Hong Wang*, "Relaxor-ferroelectric 0.9BaTiO3-0.1Bi(Zn0.5Zr0.5)O3 Ceramic Capacitors with High Energy Density and Temperature Stable Energy Storage Properties," Journal of Materials Chemistry C, DOI: 10.1039/C7TC02478A, 2017.

7.         Gaoqun Zhang, Jing Guo, Hong Wang*, “Ultra-low temperature sintering microwave dielectric ceramics based on Ag2O-MoO3 binary system”, Journal of the American Ceramic Society, 100(6):2604-2611, 2017.

8.    Dandan Wei, Hong Wang*, “Low-temperature sintering and enhanced piezoelectric properties of random and textured PIN-PMN-PT ceramics with Li2CO3”, Journal of the American Ceramic Society, 100(3):1073-1079, 2017.

9.         Qibin Yuan, Jin Cui, Yifei Wang, Rong Ma, and Hong Wang*, "Significant enhancement in breakdown strength and energy density of the BaTiO3/BaTiO3@SiO2 layered ceramics with strong interface blocking effect", Journal of the European Ceramic Society, 37(15): 4645-52, 2017.

10.     Gaoqun Zhang, Jing Guo, Xiaofeng Yuan, and Hong Wang*, "Ultra-low temperature sintering and microwave dielectric properties of a novel temperature stable Na2Mo2O7-Na0.5Bi0.5MoO4 ceramic", Journal of the European Ceramic SocietyDOI: 10.1016/j.jeurceramsoc.2017.07.021, 2017.

11.     Wenlong Liu, Ming Liu*, Sheng Chen, Ruyi Zhang, Rong Ma, Hong Wang*, “Effect of thickness-dependent crystal mosaicity and chemical defect on electric properties in yttrium-stabilized eptaxial HfO2 thin films”, Applied Physics Letters, 110(12):102904, 2017

12.     Ruyi Zhang, Qibin Yuan, Rong Ma, X. Liu, C. Gao, Ming Liu*, Chunlin Jia, and Hong Wang*, "Tuning conductivity and magnetism of CuFe2O4 via cation redistribution", RSC Advances, 7(35): 21926-32, 2017.

13.     Ruyi Zhang, Qibin Yuan, Rong Ma, X. Liu, C. Gao, Ming Liu*, Chunlin Jia, and Hong Wang*, "Highly conductive n-type NiCo2O4-delta epitaxial thin films grown by RF sputtering", Materials Letters, 199: 164-167, 2017.

14.     Rong Ma, Ming Liu, Jiannong Wang*, Hong Wang*, “The room temperature deposition of high-quality epitaxial yttrium iron garnet thin film via RF sputtering”, Journal of Alloys and Compounds, 708:213-219, 2017.

15.     Qibin Yuan, Yifei Wang, Hong Wang*, “Microstructure and Dielectric Properties of Ti0.995(In0.5Nb0.5)0.005O2/SrO-B2O3-SiO2 Glass-ceramics for Energy Storage”, IEEE Transactions on Dielectrics and Electrical Insulation, 24(2):712-719, 2017.

16.     Lei Jin*, P. X. Xu, Yi Zeng, Lu Lu, J. Barthel, T. Schulthess, R. E. Dunin-Borkowski, Hong Wang, Chunlin Jia, “Surface reconstructions and related local properties of a BiFeO3 thin film”, Scientific Reports, 7:39698, 2017

17.     Shaobo Mi*, Ruyi Zhang, Lu Lu, Ming Liu, Hong Wang, Chunlin Jia,  "Atomic-scale structure and formation of antiphase boundaries in alpha-Li0.5Fe2.5O4 thin films on MgAl2O4(001) substrates", Acta Materialia, 127: 178-184, 2017.

18.     Zixiong Sun, Chunrui Ma*, Xi Wang, Ming Liu*, Lu Lu, Ming Wu, Xiaojie Lou, Hong Wang, Chun-Lin Jia, “Large Energy Density, Excellent Thermal Stability, and High Cycling Endurance of Lead-Free BaZr0.2Ti0.8O3 Film Capacitors”,  ACS Applied Materials &Interfaces, 9(20):17097-17102, 2017.

19.     Yongcun Zhou, Feng Liu, Hong Wang*, “Novel organic–inorganic composites with high thermal conductivity for electronic packaging applications: A key issue review”, Polymer Composites, 38(4):803-813, 2017.

20.     Faber, KT (Faber, Katherine T.)[ 1 ] ; Asefa, T (Asefa, Tewodros)[ 2,3 ] ; Backhaus-Ricoult, M (Backhaus-Ricoult, Monika)[ 4 ] ; Brow, R (Brow, Richard)[ 5 ] ; Chan, JY (Chan, Julia Y.)[ 6 ] ; Dillon, S (Dillon, Shen)[ 7 ] ; Fahrenholtz, WG (Fahrenholtz, William G.)[ 5 ] ; Finnis, MW (Finnis, Michael W.)[ 8 ] ; Garay, JE (Garay, Javier E.)[ 9 ] ; Garcia, RE (Garcia, R. Edwin)[ 10 ] ; Gogotsi, Y (Gogotsi, Yury)[ 11 ] ; Haile, SM (Haile, Sossina M.)[ 12 ] ; Halloran, J (Halloran, John)[ 13 ] ; Hu, JJ (Hu, Juejun)[ 14 ] ; Huang, LP (Huang, Liping)[ 15 ] ; Jacobsen, SD (Jacobsen, Steven D.)[ 16 ] ; Lara-Curzio, E (Lara-Curzio, Edgar)[ 17 ] ; LeBeau, J (LeBeau, James)[ 18 ] ; Lee, WE (Lee, William E.)[ 8 ] ; Levi, CG (Levi, Carlos G.)[ 19 ] ; Levin, I (Levin, Igor)[ 20 ] ; Lewis, JA (Lewis, Jennifer A.)[ 21 ] ; Lipkin, DM (Lipkin, Don M.)[ 22 ] ; Lu, K (Lu, Kathy)[ 23 ] ; Luo, J (Luo, Jian)[ 24 ] ; Maria, JP (Maria, Jon-Paul)[ 18 ] ; Martin, LW (Martin, Lane W.)[ 25 ] ; Martin, S (Martin, Steve)[ 26 ] ; Messing, G (Messing, Gary)[ 27 ] ; Navrotsky, A (Navrotsky, Alexandra)[ 28 ] ; Padture, NP (Padture, Nitin P.)[ 29 ] ; Randall, C (Randall, Clive)[ 27 ] ; Rohrer, GS (Rohrer, Gregory S.)[ 30 ] ; Rosenflanz, A (Rosenflanz, Anatoly)[ 31 ] ; Schaedler, TA (Schaedler, Tobias A.)[ 32 ] ; Schlom, DG (Schlom, Darrell G.)[ 33 ] ; Sehirlioglu, A (Sehirlioglu, Alp)[ 34 ] ; Stevenson, AJ (Stevenson, Adam J.)[ 35 ] ; Tani, T (Tani, Toshihiko)[ 36 ] ; Tikare, V (Tikare, Veena)[ 37 ] ; Trolier-McKinstry, S (Trolier-McKinstry, Susan)[ 27 ] ; Wang, H (Wang, Hong)[ 38,39 ] ; Yildiz, B (Yildiz, Bilge)[ 14,40 ], The role of ceramic and glass science research in meeting societal challenges: Report from an NSF-sponsored workshop”, Journal of the American Ceramic Society, 100(5):1777-1803, 2017.

21.     张高群,汪宏,超低温烧结微波介质陶瓷研究进展(《硅酸盐学报》创刊60周年专题论文),硅酸盐学报45(9):1256-1264, 2017.

22.     M.T. Sebastian, Hong Wang, H. Jantunen, “Low temperature co-fired ceramics with ultra-low sintering temperature: A review”, Curr. Opin. Solid State Mater. Sci., 20(3):151-170, 2016.

23.     Panpan Chang, Li He, Dandan Wei, Hong Wang*, “Textured Z-type hexaferrites Ba3Co2Fe24O41 ceramics with high permeability by reactive templated grain growth method”, Journal of the European Ceramic Society, 36:2519–2524, 2016.

24.    Ruyi Zhang, Ming Liu, Lu Lu, Shaobo Mi, Chunlin Jia, Hong Wang*, “High-performance CuFe2O4 Epitaxial Thin Films with Enhanced Ferromagnetic Resonance Properties”, RSC Advance, 6(102):  100108-100114, 2016. 

25.    Gang Wang, Houfang Liu, Hao Wu, Xiaoning Li, Haochuan Qiu, Yi Yang, Bingjun Qu, Tian-Ling Ren, Xiufeng Han, Ruyi Zhang, Hong Wang, “Epitaxial yttrium iron garnet film for fabrication of high frequency on-chip inductors”, Applied Physics Letters, 109:162405, 2016.

26.     Yifei Wang, Jin Cui, Qibin Yuan, Yujuan Niu, Yuanyuan Bai, Hong Wang*, “Significantly enhanced breakdown strength and energy density in sandwich-structured barium titanate/ poly(vinylidene fluoride) nanocomposites”, Advanced Materials, 27(42):6657-63, 2015.

27.     Gaoqun Zhang, Hong Wang*, Jing Guo, Li He, Dandan Wei, Qi-Bin Yuan, “Ultra-low sintering temperature microwave dielectric ceramics based on Na2O-MoO3 binary system”, Journal of the American Ceramic Society, 98 (2):528–533, 2015.

28.     Li He, Shaobo Mi, Xiaowei Jin, Hui Zhang, Di Zhou, Haibo Yang, Hong Wang*, “Order-disorder phase transition and magneto-dielectric properties of (1-x)LiFe5O8-xLi2ZnTi3O8 spinel-structured solid solution ceramics”, Journal of the American Ceramic Society, 98 (7):2122–2129, 2015.

29.     Panpan Chang, Li He, Hong Wang*, “Low loss magneto-dielectric composite ceramics Ba3Co2 Fe24O41/SrTiO3 for high-frequency applications”, Journal of the American Ceramic Society, 98 (4):1137–1141, 2015.

30.     Yujuan Niu, Ke Yu, Yuanyuan Bai, Hong Wang*, “Effect of the modifier structure on the performance of barium titanate/poly(vinylidene fluoride) nanocomposites for energy storage”, ACS Applied Materials & Interfaces, 7:24168-24176, 2015.

31.     Yujuan Niu, Ke Yu, Yuanyuan Bai, Hong Wang*, “Enhanced dielectric performance of BaTiO3/PVDF composites prepared by modified process for energy storage applications”, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, 62(1): 108-115, 2015.

32.     Yujuan Niu, Ke Yu, Yuanyuan Bai, Hong Wang*, “Fluorocarboxylic acid-modified barium titanate/poly(vinylidene fluoride) composite with significantly enhanced breakdown strength and high energy density”, RSC Advances, 5(79):64596-64603, 2015.

33.     Dandan Wei, Qibin Yuan, Gaoqun Zhang, Hong Wang*, “Templated grain growth and piezoelectric properties of <001>-textured PIN-PMN-PT ceramics”, Journal of Materials Research, 30(14): 2144-2150, 2015.

34.     Panpan Chang, Li He, Hong Wang*, “Effect of BaCu(B2O5) additions on the sintering behaviors and dielectric-magnetic properties of Co2Z hexaferrite ”, Journal of Materials Research, 30(18):2747-2752, 2015.

35.     Ruyi Zhang, Ming Liu, Lu Lu, Shaobo Mi, Hong Wang*, “Strain-Tunable Magnetic Properties of Epitaxial Lithium Ferrite Thin Films on MgAl2O4 Substrates”, Journal of Materials Chemistry C, 3: 5598, 2015.

36.     Ruyi Zhang, Ming Liu, Lu Lu, Shaobo Mi, Hong Wang*, “Ultra-low temperature epitaxial growth of lithium ferrite thin films by high-pressure sputtering”, Cryst. Eng. Comm., 17:8256-8263, 2015.

37.     Jin Guo, C. Randall, Di Zhou, Gaoqun Zhang, Yuyan Chen, Hong Wang*, “Correlation between vibrational modes and dielectric properties in (Ca1-3xBi2xΦx)MoO4 ceramics”, Journal of the European Ceramic Society, 35(16):4459-4464, 2015.

38.     Feng Dandan, Ke Yu, Hong Wang*, “Dielectric Properties of CCTO/Poly(vinylidene fluoride) Composites for EnergyStorage Applications”, Journal of Advanced Physics, 4: 384-387, 2015.

39.     Yuanyuan Bai, Baohong Chen, Feng Xiang, Jinxiong Zhou, Hong Wang*, Zhigang Suo, “Transparent hydrogel with enhanced water retention capacity by introducing highly hydratable salt”, Applied Physics Letters, 105(15):151903, 2014.

40.     Yuanyuan Bai, Yanhui Jiang, Baohong Chen, Choon Chiang Foo, Yongcun Zhou, Feng Xiang, Jinxiong Zhou, Hong Wang*, ZhigangSuo, “Cyclic performance of viscoelastic dielectric elastomers with solid hydrogel electrodes”, Applied Physics Letters, 104 (6):062902, 2014.

41.     Jing Guo, Clive A. Randall, Gaoqun Zhang, Di Zhou, Yuyan Chen, Hong Wang*, “Synthesis, structure, and characterization of new low-firing microwave dielectric ceramics: (Ca13xBi2xΦx)MoO4”, Journal of Materials Chemistry C, 35:7364-7372, 2014.

42.     Jing Guo, Di Zhou, Yong Li, T. Shao, Z. M. Qi, B. B. Jin, Hong Wang*, “Structure-property relationships of novel microwave dielectric ceramics with low sintering temperatures: Na0.5xBi0.5xCa1-xMoO4”, Dalton Transaction,43 (31):1188-96, 2014.

43.     Li He, Di Zhou, Haibo Yang, YujuanNiu, Feng Xiang, Hong Wang*, “low-temperature sintering LiMoO4/Ni0.5Zn0.5Fe2O4 magneto-dielectric composites for high-frequency application”, Journal of the American Ceramic Society, 97 (8):2552–2556, 2014.

44.     Haitao Lei, Yong Li, Hong Wang*, “Bandgap properties of diamond structure photonic crystal heterostructures with inclined and curved interfaces”, Journal of Applied Physics, 115 (22):223501, 2014.

45.     Yong Li, LonglongShu, Wenbin Huang, Xiaoning Jiang, Hong Wang*, “Giant flexoelectricity in Ba0.6Sr0.4TiO3/Ni0.8Zn0.2Fe2O4 composite”, Applied Physics Letters, 105:162906, 2014.

46.     Ke Yu, YuanyuanBai, Yongcun Zhou, YujuanNiu, Hong Wang*, “Poly(vinylidene fluoride) polymer based nanocomposites with enhanced energy density by filling with polyacrylate elastomers and BaTiO3 nanoparticles”, Applied Physics Letters, 104 (8): 082904, 2014.

47.     Gaoqun Zhang, Jing Guo, Li He, Di Zhou, Hong Wang*, Jurij Koruza, Marija Kosec, “Preparation and microwave dielectric properties of ultra-low temperature sintering ceramics in K2O–MoO3 binary system”, Journal of the American Ceramic Society, 97 (1):241–245, 2014.

48.     Yongcun Zhou, Yining Chen, Hong Wang*, Ching-ping Wong, “Creation of a multilayer aluminum coating structure nanoparticle polyimide filler for electronic applications”, Materials Letters, 119: 64-7, 2014.

49.     Yongcun Zhou, Yagang Yao, Chia-Yun Chen, Kyoungsik Moon, Hong Wang*, Ching-ping Wong, “The use of polyimide-modified aluminum nitride fillers in AlN@PI/Epoxy composites with enhanced thermal conductivity for electronic encapsulation”, Scientific Reports, 4:4779, 2014

50.     Baohong Chen, Yuanyuan Bai, Feng Xiang, Jeong-yun Sun, Jinxiong Zhou, Hong Wang*, Zhigang Suo, “Stretchable and transparent hydrogels as soft conductors for dielectric elastomer actuators”, Journal of Polymer Science Part B-Polymer Physics, 52(16):1055-1060, 2014.

51.     Jing Guo, Di Zhou, Shen-li Zou, Hong Wang, Li-xia Pang, Xi Yao, “Microwave dielectric ceramics Li2MO4TiO2(M = Mo, W) with low sintering temperatures”, Journal of the American Ceramic Society, 97: 1819–1822, 2014.

52.     Ming Liu, Chunrui Ma, Jian Liu, Collins G., Chonglin Chen, Feng Xiang, Hong Wang, Jie He, Jiechao Jiang, Meletis E. I., Bhalla A., “Microwave dielectric properties of Mn-doped (Ba,Sr)TiO3//Ba(Zr,Ti)O3 multilayered thin films: optimization of designed structure”, Integrated Ferroelectrics, 150, 116-22, 2014.

53.     Yin Wang, Baohong Chen, YuanyuanBai, Yongmei Chen, Hong Wang*, Jinxiong Zhou, Zhigang Suo, “Stretchable and Transparent Hydrogels as Soft Conductors for Dielectric Elastomer Actuators”, Applied Physics Letters, 104 (6):064101, 2014.

54.     Jing Guo, Di Zhou, Lu Wang, Hong Wang*, Tao Shao, Zeming Qi, Xi Yao, “Infrared spectra, Raman spectra, microwave dielectric properties and simulation for effective permittivity of temperature stable ceramics AMoO4-TiO2 (A = Ca, Sr)”, Dalton Transactions, 42(5):1483-91, Feb 2013.

55.     Ke Yu, Yujuan Niu, Yuanyuan Bai, Yongcun Zhou, Hong Wang*,  “Poly(vinylidene fluoride) polymer based nanocomposites with significantly reduced energy loss by filling with core-shell structured BaTiO3/SiO2 nanoparticles ”, Applied Physics Letters,102(10):102903, Mar 2013.

56.     Yongcun Zhou, Hong Wang*,  “An Al@Al2O3@SiO2/polyimide composite with multilayer coating structure fillers based on self-passivated aluminum cores”, Applied Physics Letters, 102(13):132901, Apr 2013.

57.     Yongcun Zhou, Yuanyuan Bai, Yu Ke, Yan Kang, Hong Wang*,  “Excellent thermal conductivity and dielectric properties of polyimide composites filled with silica coated self-passivated aluminum fibers and nanoparticles”, Applied Physics Letters, 102(25):252903, Jun 2013.

58.     Yong Li, Longlong Shu, Yongcun Zhou, Jing Guo, Feng Xiang, Li He, Hong Wang*,  “Enhanced flexoelectric effect in a non-ferroelectric composite”, Applied Physics Letters, 103(14):142909, Sep 2013.

59.     Ke Yu, Hong Wang*, Yongcun Zhou, Yuanyuan Bai, Yujuan Niu, “Enhanced dielectric properties of BaTiO3/poly(vinylidene fluoride) nanocomposites for energy storage applications”, Journal of Applied Physics,113:034105, Jan 2013.

60.     Ke Yu, Yujuan Niu, Feng Xiang, Yongcun Zhou, Yuanyuan Bai, and Hong Wang*, "Enhanced electric breakdown strength and high energy density of barium titanate filled polymer nanocomposites.", Journal of Applied Physics,  114(17):  174107, 2013.

61.     Ke Yu, Yujuan Niu,Yongcun Zhou, Yuanyuan Bai, Hong Wang*,  “Nanocomposites of surface-modified BaTiO3 nanoparticles filled ferroelectric polymer with enhanced energy density",  Journal of the American Ceramic Society, 96(8): 2519-2524, Aug. 2013.

62.     Li He, Di Zhou, Feng Xiang, Panpan Chang, Yong Li, Hong Wang*, "A novel magnetodielectric solid solution ceramic 0.4LiFe5O8–0.6Li2MgTi3O8", Journal of the American Ceramic Society, 96 (10): 3027-3030, 2013.

63.     Yujuan Niu, Yuanyuan Bai, Ke Yu, Li He, Feng Xiang, Hong Wang*,  “Fabrication, structure, and property of epoxy-based composites with metal-insulator core-shell structure fillers", Journal of Materials Research, 28(18): 2644-2649, Sep 2013.

64.     Li He, Haibo Yang, Di Zhou, Yujuan Niu,Feng Xiang, Hong Wang*,  “Improved dielectric and magnetic properties of 1-3-type Ni0.5Zn0.5Fe2O4/epoxy composites for high-frequency applications”, Journal of Physics D-Applied Physics, 46(12):125003, Mar 2013.

65.     Wei Dai, Hong Wang*, “Three-dimensional electromagnetic band-gap structure containing TiO2 fabricated by rapid-prototyping”, Optical and Quantum Electronics, 45(5):373-379, May 2013.

66.     Huanfu Zhou, Xiaobin Liu, Hong Wang, Liang Fang, Xiuli Chen, “Phase stability, low temperature cofiring and microwave dielectric properties of BaTi5O11 ceramics with BaCu(B2O5) addition”, Journal of Materials Science-Materials in Electronics, 24(1):299-304, Jan 2013.

67.     Longlong Shu, Xiaoyong Wei, Li Jin, Yong Li, Hong Wang, Xi Yao, “Enhanced direct flexoelectricity in paraelectric phase of Ba(Ti0.87Sn0.13)O3 ceramics”, Applied Physics Letters,102(15):152904, Apr 2013.

68.     Li-Xia Pang, Di Zhou, Hong Wang, “Effect of Ca substitution on phase compositions and dielectric properties of Bi2O3-ZnO-Nb2O5 pyrochlore ceramics”, Ceramic International, 39(1): S673-S676, 2013. 

69.     Yongcun Zhou, Lu Wang, Hu Zhang, Yuanyuan Bai, Yujuan Liu, Hong Wang*, “Enhanced high thermal conductivity and low permittivity of polyimide based composite by core-shell Ag@SiO2 nanopaticle fillers", Applied Physics Letters, 101:012903, 2012.

70.     Li He, Di Zhou, Haibo Yang, Jing Guo, Hong Wang*, “A novel magneto-dielectric solid solution ceramic 0.25LiFe5O8-0.75Li2ZnTi3O8with relatively high permeability and ultra-low dielectric loss,” Journal of the American Ceramic Society, 9(12): 3732–3734, 2012

71.     Jing Guo, Di Zhou, Hong Wang*, Yue-Hua Chen, Yi Zeng, Feng Xiang, Ying Wu, Xi Yao, “Microwave and infrared dielectric response of temperature stable (1x)BaMoO4–xTiO2 composite ceramics”, Journal of the American Ceramic Society, 95(1): 235-237, 2012.

72.     Xingguang Wu, Hong Wang*, Yue-Hua Chen, Di Zhou, “Synthesis and microwave dielectric properties of Zn3B2O6 ceramics for substrate application”, Journal of the American Ceramic Society, 95(6): 1793-1795, 2012.

73.     Wei Dai, Hong Wang*, "Planar defects and heterostructure in diamond structure photonic crystals," Journal of Applied Physics, 112: 113504, 2012

74.     Wei Dai, Hong Wang*, Shibin Chen, Dichen Li, Di Zhou, “Effect of point defects on band-gap properties in diamond structure photonic crystals”, Journal of Applied Physics, 111(2): 023515, 2012.

75.     Wei Dai*Hong Wang, Shibin Chen, “Bandgap properties of diamond structure photonic crystals with line defects”, Journal of Applied Physics, 111(8): 083514, 2012.

76.     Yongcun Zhou, Hong Wang*, Lu Wang, Ke Yu, Zhude Lin, Li He, Yuanyuan Bai, “Fabrication and characterization of aluminum nitride polymer matrix composites with high thermal conductivity and low dielectric constant for electronic packaging”, Materials Science and Engineering B-Advanced Functional Solid-State Materials, 177(11): 892-896, 2012.

77.     Yue-Hua Chen, Yihui Chen, Yi Zeng, Hong Wang*, “Microwave dielectric properties of  BaO-4.3TiO-0.5ZnO ceramics with BaCu(B2O5)”, Ceramic International, 38(1): S147-S152, 2012.

78.     Haibo Yang, Hong Wang*, Li He, Xi Yao, “Hexagonal BaTiO3/Ni0.8Zn0.2Fe2O4 composites with giant dielectric constant and high permeability”, Materials Chemistry and Physics, 134(2-3): 777-782, 2012.

79.     Haibo Yang, Hong Wang*, Li He, Xi Yao, “Low-temperature sintering and electromagnetic properties of Ba(Zn1/3Nb2/3)O3/NiCuZn ferrite composites”, Journal of Physics and Chemistry of Solids, 73(3): 454-459, 2012.

80.     Weihong Liu, Hong Wang, “Enhanced dielectric properties of Bi1.5ZnNb1.5O7 thick films via cold isostatic pressing”, Journal of Electroceramics, 293: 183-186, 2012.

81.     Ming Liu, Chunrui Ma, Gregory Collins, Jian Liu, Chonglin Chen, Chao Dai, Yuan Lin, Li Shui, Feng Xiang, Hong Wang, Jie He, Jiechao Jiang, Efstanthios I Meletis, Melanie W Cole, “Interface engineered BaTiO3/SrTiO3 heterostructures with optimized high-Frequency dielectric properties”, ACS applied materials & interfaces, 4(11): 5761-5, 2012.

82.      Huan-Fu Zhou, Xiao-Bin Liu, Xiu-Li Chen, Liang Fang, Hong Wang, “Microwave dielectric properties and compatibility with silver of low-fired Ba2Ti3Nb4O18 ceramics with BaCu(B2O5) addition”, Journal of Materials Science-Materials In Electronics, 23(1): 238-242, 2012.

83.     Huan-Fu Zhou, Xiao-Bin Liu, Hong Wang, Xiu-Li Chen, “Low temperature cofiring and compatibility with silver electrode of ZnO-SnO2-TiO2-Nb2O5 ceramics with BaCu(B2O5) addition”, Ceramics International, 38(1): 367-372, 2012.

84.     Yawen Hu, Dichen Li, Wei Dai, Minjie Wang, Hong Wang, Kun Sun, “Fabrication of three-dimensional electromagnetic band-gap structure with alumina based on stereolithography and gelcasting”Journal of Manufacturing Systems, 31(1): 22-25, 2012

85.     Weihong Liu, Hong Wang, Bo Zhang, Yongfeng Li, “Ba2Bi2Nb2O9 powder and their ceramics by aqueous-sol method ”, Journal of Sol-Gel Science and Technology, 64: 673-677, 2012.

86.     Hong Wang*, Hai-Bo Yang, Feng Xiang, Xi Yao, “Low-loss electromagnetic composites for RF and microwave applications”, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, 58(9): 1947-1953, 2011.

87.     Wei-Hong Liu, Hong Wang*, “Sintering and dielectric properties of Bi1.5ZnNb1.5O7 cubic pyrochlore ceramics via high-energy milling technology”, Journal of Electroceramics, 27(3-4): 209-214, 2011.

88.     Di Zhou, Li-Xia Pang, Jing Guo, Hong Wang, Xi Yao, Clive Randall, “Phase evolution, phase transition, Raman spectra, infrared spectra, and microwave dielectric properties of low temperature firing (K0.5xBi1-0.5x)(MoxV1-x)O4 ceramics with scheelite related structure”, Inorganic Chemistry, 50(24): 12733-12738 , 2011.

89.     Yong-Cun Zhou, Hong Wang*, Feng Xiang, Hu Zhang, Ke Yu, Liang Chen, “A poly(vinylidene fluoride) composite with added self-passivated microaluminum and nanoaluminum particles for enhanced thermal conductivity”, Applied Physics Letters, 98 (18): 182906-3, 2011.

90.     Wei Dai, Hong Wang*, Min-Jie Wang, Zhi-Yuan Shen, Di-Chen Li, Di Zhou, “Diamond electromagnetic band gap structure based on Bi(Nb0.992V0.008)O4 ceramic”, Journal of Materials Science-Materials in Electronics, 22(4): 422-425, 2011.

91.     Jing Guo, Di Zhou, Hong Wang*, Xi Yao, “Microwave dielectric properties of (1-x)ZnMoO4-xTiO2 composite ceramics”, Journal of Alloys and Compounds, 509(19):5863-5865, 2011.

92.     Wei-Hong Liu, Hong Wang*, “AgNbO3 ceramics synthesized by aqueous solution-gel method”, Journal of Sol-Gel Science and Technology, 58(1): 96-101, 2011.

93.     Li-Xia Pang, Di Zhou, Yue-Hua Chen, Hong Wang, “Structural and microwave dielectric behavior of (Li1/4Nb3/4) substituted ZrxSnyTizO4 (x plus y plus z=2) system”, Materials Chemistry and Physics, 125(3): 641-645, 2011.

94.     Li-Xia Pang, Di Zhou, Hong Wang, Ying Wu, Jing Guo, Yue-Hua Chen, “Phase evolution and microwave dielectric properties of Bi3SbO7 ceramic”, Journal of Physics and Chemistry of Solids, 72(7):882-885, 2011.

95.     Jian-Zhang Shi, Hong Wang*, Dong-Shi Zhang, Feng Chen, Xi Yao, “Femtosecond laser directly writing microholes in Bi(Nb0.998V0.002)O4 ceramic and multi-photon induced large scale nanometer wires array”, Journal of Materials Science-Materials in Electronics, 22(1):1-5, 2011.

96.     Da-Wei Wang, Elena Buixaderas, Jorge Iniguez, Jeevaka Weerasinghe, Hong Wang, L Bellaiche, “Fermi resonance involving nonlinear dynamical couplings in Pb(Zr, Ti)O3 solid solutions”, Physical Review Letters, 107(17): 175502-5, 2011.

97.     Ying Wu, Di Zhou, Jing Guo, Li-Xia Pang, Hong Wang, Xi Yao, “Temperature stable microwave dielectric ceramic 0.3Li2TiO3-0.7Li(Zn0.5Ti1.5)O4 with ultra-low dielectric loss”, Materials Letters, 65(17-18): 2680-2682, 2011.

98.     Ming-Hui Zhang, Hong Wang*, Hai-Bo Yang, Wei-Hong Liu, Huan-Fu Zhou, Xi Yao, “Enhanced dielectric properties of low-temperature-sintered Ba0.6Sr0.4TiO3 thick films”, Journal of Electroceramics, 26(1-4): 99-104, 2011.

99.     Ming-Hui Zhang, Hong Wang*, Hai-Bo Yang, Xin-Guang Wu, Wei-Hong Liu, Xi Yao, “Dielectric properties of low-temperature sintered Ba0.6Sr0.4TiO3 thick films prepared by reactive sintering method”, Journal of Alloys and Compounds, 509(38): 344-347, 2011.

100.  Di Zhou, Li-Xia Pang, Jing Guo, Ying Wu, Gao-Qun Zhang, Wei Dai, Hong Wang, Xi Yao, “New microwave dielectric ceramics BaLn2(MoO4)4 (Ln = Nd and Sm) with low loss”, Journal of the American Ceramic Society, 94(9): 2800-2803, 2011.

101.  Di Zhou, Li-Xia Pang, Jing Guo, Gao-Qun Zhang, Ying Wu, Hong Wang*, Xi Yao, “Low temperature firing microwave dielectric ceramics (K0.5Ln0.5)MoO4 (Ln =Nd and Sm) with low dielectric loss”, Journal of the European Ceramic Society, 31(15): 2749-2752, 2011.

102.  Di Zhou, Li-Xia Pang, Hong Wang, Jing Guo, Xi Yao, Clive Randall, “Phase transition, Raman spectra, infrared spectra, band gap and microwave dielectric properties of low temperature firing (Na0.5xBi1-0.5x)(MoxV1-x)O4 solid solution ceramics with scheelite structures”, Journal of Materials Chemistry, 21(45): 18412-18420, 2011.

103.  Di Zhou, Wei-Guo Qu, Clive-A Randall, Li-Xia Pang, Hong Wang, Xin-Guang Wu, Jing Guo, Gao-Qun Zhang, Li Shui, Qiu-Ping Wang, Han-Chen Liu, Xi Yao, “Ferroelastic phase transition compositional dependence for solid-solution [(Li0.5Bi0.5)xBi1-x][MoxV1-x]O(4) scheelite-structured microwave dielectric ceramics”, Acta Materialia, 59(4): 1502-1509, 2011.

104.  Di Zhou, Clive Randall, Li-Xia Pang, Hong Wang, Jing Guo, Gao-Qun Zhang, Xin-Guang Wu, Li Shui, Xi Yao, “Microwave dielectric properties of Li2WO4 ceramic with ultra-low sintering temperature”, Journal of the American Ceramic Society, 94(2): 348-350, 2011.

105.  Di Zhou, Clive Randall, Li-Xia Pang, Hong Wang, Jing Guo, Gao-Qun Zhang, Ying Wu, Ke-Ting Guo, Li Shui, Xi Yao, “Microwave dielectric properties of (ABi)1/2MoO4 (A = Li, Na, K, Rb, Ag) type ceramics with ultra-low firing temperatures”, Materials Chemistry and Physics, 129(3): 688-692, 2011.

106.  Di Zhou, Clive Randall, Li-Xia Pang, Hong Wang, Xin-Guang Wu, Jing Guo, Gao-Qun Zhang, Li Shui, Xi Yao, “Microwave dielectric properties of Li2(M2+)2Mo3O12 and Li3(M3+)Mo3O12 (M=Zn, Ca, Al, and In) Lyonsite-related-type ceramics with ultra-low sintering temperatures”, Journal of the American Ceramic Society, 94(3): 802-805, 2011.

107.  Xiu-Li Chen, Huan-Fu Zhou, Liang Fang, Dong-Jin Chu, Chang-Da Li, Rui-Li Guo, Hong Wang, “Microwave dielectric properties and its compatibility with silver electrode of LiNb0.6Ti0.5O3 with B2O3 and CuO additions”, Journal of Materials Science-Materials in Electronics, 22(4): 371-375, 2011

108.  Yi Zeng, Hong Wang*, Huan-Fu Zhou, “Effect of BaCu(B2O5) on the sintering temperature and microwave dielectric properties of Ba(Nd0.8Bi0.22Ti4O12 ceramics”, Journal of Materials Research, 25(12): 2380-2383, 2010

109.  Wei Dai, Hong Wang*, Di Zhou, Zhiyuan Shen, Yong Li, Dichen Li, “The ultra-wide band gap property induced by lattice period gradually changing in three-dimensional photonic crystals”, Journal of the American Ceramic Society, 93(12): 3980-3982, 2010.

110.  Di Zhou, Hong Wang, Qiu-Ping Wang, Xin-Guang Wu, Jing Guo, Gao-Qun Zhang, Li Shui, Xi Yao, Clive A. Randall, Li-Xia Pang, Han-Chen Liu, “Microwave dielectric properties and Raman spectroscopy of scheelite solid solution [(Li0.5Bi0.5)(1-x)Cax]MoO4 ceramics with ultra-low sintering temperatures,” Functional Materials Letters, 3(4):253-257, 2010.

111.  Xinguang Wu, Hong Wang*, Huanfu Zhou, Xi Yao, “Microwave dielectric properties of low temperature firing BaxCu2-xP2O7 ceramics”, Ferroelectrics, 407(1): 16-22, 2010.

112.  Yuehua Chen, Hong Wang*, Lixia Pang, Huanfu Zhou, Xi Yao,“Effect of Zn2+ substitution on sintering behavior and dielectric properties of NdNbO4 ceramics” Ferroelectrics, 407:61–68, 2010.

113.  Xiao-Yan, Ding, Hong Wang*, Huan-Fu Zhou, Xi Yao, “Microwaves dielectric properties of 3Li2O-Nb2O5-6TiO2 ceramics with B2O3 addition” Ferroelectrics, 407:93–100, 2010.

114.  Li-xia Pang, Hong Wang*, Di Zhou, Xi Yao, “Low-temperature sintering and microwave dielectric properties of TiO2-based LTCC materials”, Journal of Materials Science-Materials in Electronics, 21 (12) : 1285-1292 , 2010.

115.  Wei Dai, Hong Wang *, Minjie Wang, Zhiyuan Shen, Dichen Li, Di Zhou, Jianzhang Shi, “Fabrication of three-dimensional electromagnetic band-gap structure with high-K dielectric ceramics by rapid-prototyping”, Journal of Electroceramics, 25 (2-4): 218-222,  2010.

116.  Haibo Yang, Hong Wang *, Li He, Li Shui, Xi Yao, “Polarization relaxation mechanism of Ba0.6Sr0.4TiO3/Ni0.8Zn0.2Fe2O4 composite with giant dielectric constant and high permeability”, Journal of Applied physics, 108(7): 074105,  2010.

117.  Weihong Liu, Hong Wang*, Kecheng Li, “An aqueous solution-gel method for low temperature synthesis of nanocrystalline NaNbO3 and their ceramics”, Journal of Sol-Gel Science and Technology 55(2): 229-234. 2010.

118.  Weihong Liu, Hong Wang*, Kecheng Li, Xi Yao, “Effect of Ag on the sintering and dielectric properties behavior of Bi1.5ZnNb1.5O7 ceramics”, Journal of Alloys and Compounds 491(1-2): 218-222. 2010.

119.  Weihong Liu, Hong Wang*, Di Zhou, Kecheng Li, “Dielectric properties of low-firing Bi2Mo2O9 thick films screen printed on Al Foils and alumina substrates”, Journal of the American Ceramic Society 93(8): 2202-2206. 2010.

120.  Li-Xia Pang, Hong Wang*, Di Zhou, YueHua Chen, Xi Yao, Phase evolution, Raman spectroscopy and microwave dielectric behavior of (Li1/4Nb3/4) doped ZrO2-TiO2 system”, Applied Physics a-Materials Science & Processing 100(4): 1205-1209. 2010.

121.  Li-Xia Pang, Hong Wang *, Di Zhou, Wei-Hong Liu, “Sintering behavior and microwave dielectric properties of Ba6-3xNd8+2xTi18O54 (x=2/3) ceramics coated by H3BO3-TEOS sol-gel”, Materials Chemistry and Physics 123(2-3): 727-730. 2010.

122.  Li-Xia Pang, Hong Wang*, Di Zhou, Xi Yao, “A new temperature stable microwave dielectric with low-firing temperature in Bi2MoO6-TiO2 system”, Journal of Alloys and Compounds 493(1-2): 626-629. 2010.

123.  Hong Wang*, Feng Xiang, Kecheng Li,Ceramic-polymer Ba0.6Sr0.4TiO3/Poly(Methyl Methacrylate) composites with different type composite structures for electronic technology”, International Journal of Applied Ceramic Technology 7(4): 435-443. 2010.

124.  Feng Xiang, Hong Wang*, Haibo Yang, ZiYuan Shen, Xi Yao, “Low loss flexible SrTiO3/POE dielectric composites for microwave application”, Journal of Electroceramics 24(1): 20-24. 2010.

125.  Haibo Yang, Hong Wang*, Li Shui, Li He, “Hybrid processing and properties of Ni0.8Zn0.2Fe2O4/Ba0.6Sr0.4TiO3 magnetodielectric composites”, Journal of Materials Research 25(9): 1803-1811. 2010.

126.  Di Zhou, Randall Clive A., Baker Amanda, Hong Wang *, Li-Xia Pang, Xi Yao, Dielectric properties of an ultra-low-temperature cofiring Bi2Mo2O9 multilayer”, Journal of the American Ceramic Society 93(5): 1443-1446. 2010.

127.  Di Zhou, Randall Clive A., Hong Wang *, Li-Xia Pang, Xi Yao, Microwave dielectric ceramics in Li2O-Bi2O3-MoO3 system with ultra-low sintering temperatures”, Journal of the American Ceramic Society 93(4): 1096-1100. 2010.

128.  Di Zhou, Randall Clive A, Hong Wang *, Li-Xia Pang, Xi Yao, “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 93(8): 2147-2150. 2010.

129.  Huanfu Zhou, Hong Wang*, Kecheng Li, Minghui Zhang, Haibo Yang, “Microwave dielectric properties of low temperature firing (Li1/2Nd1/2)WO4 ceramic”, Journal of Materials Science-Materials in Electronics 21(3): 252-255. 2010.

130.  Huanfu Zhou, Hong Wang*, Minghui Zhang, Haibo Yang, “Microwave dielectric properties and compatibility with silver of low-fired Ba5Nb4O15 ceramics by BaCu(B2O5) addition”, Journal of Materials Research 25(9): 1793-1798. 2010.

131.  Banys Juras, Rudys Saulius, Ivanov Maksim, Li, Jing, Hong Wang, “Dielectric properties of cubic bismuth based pyrochlores containing lithium and fluorine”, Journal of the European Ceramic Society, 30:385–388 , 2010.

132.  Huanfu Zhou, Hong Wang *, Minghui Zhang, Kecheng Li, Haibo Yang, “Synthesis and microwave dielectric properties of Ba4Ti3P2O15 ceramics”, Materials Chemistry and Physics, 119:4–6, 2010.

133.  Di Zhou, Hong Wang*, Lixia Pang, Xi Yao, “Low-firing of BiSbO4 microwave dielectric ceramic with V2O5-CuO addition”, Materials Chemistry and Physics, 119:149–152, 2010.

134.  Kecheng Li, Hong Wang*, Huanfu Zhou, Minghui Zhang, Xi Yao, “Silver co-firable ZnTiNb2O8 microwave dielectric ceramics with Li2O-ZnO-B2O3 glass additive”, International of Journal of Applied Ceramics Technology, 7(1): E144-E150,  2010.

135.  Ming Liu, Chunrui Ma, Collins Greg, Jian Liu, Chonglin Chen, Li Shui, Hong Wang, Dai Chao, Lin Yuan, He Jie, Jiang Jiechao, Meletis Efstathios I., Zhang Qingyu, “Microwave dielectric properties with optimized Mn-doped Ba0.6Sr0.4TiO3 highly epitaxial thin films”, Crystal Growth & Design, 10(10): 4221-4223,  2010.

136.  Huanfu Zhou, Xiuli Chen, Liang Fang, Changzheng Hu, Hong Wang, “Preparation and characterization of a new microwave dielectric ceramic Ba4ZnTi11O27”, Journal of the American Ceramic Society 93(6): 1537-1539. 2010.

137.  Huanfu Zhou, Xiuli Chen, Liang Fang, Dongjin Chu, Hong Wang, “A new low-loss microwave dielectric ceramic for low temperature cofired ceramic applications”, Journal of Materials Research 25(7): 1235-1238. 2010.

138.  Huanfu Zhou, Xiuli Chen, Liang Fang, Changzheng Hu, Hong Wang, A new microwave dielectric ceramic for LTCC applications”, Journal of Materials Science-Materials in Electronics 21(8): 849-853. 2010.

139.  Huanfu Zhou, Xiuli Chen, Liang Fang, Changzheng Hu, Hong Wang, “Microwave dielectric properties of Ba5Nb4O15 ceramic by molten salt method”, Journal of Materials Science-Materials in Electronics 21(9): 939-942.2010.

140.  Xiuli Chen, Huanfu Zhou, Liang Fang, Laijun Liu, Changda Li, Ruli Guo, Hong Wang, “Low-temperature sintering and compatibility with silver electrode of Ba4MgTi11O27 microwave dielectric ceramic”, Materials Research Bulletin 45(10): 1509-1512. 2010.

141.  Kecheng Li, Hong Wang*, Feng Xiang, Weihong Liu, Haibo Yang, “Surface functionalized Ba0.6Sr0.4TiO3/polyvinylidene fluoridenanocomposites with significantly enhanced dielectric properties”, Applied Physics Letters, 95:202904, 2009.

142.  Di Zhou, Hong Wang*, Li-Xia Pang, Clive A. Randall, Xi Yao, “Bi2O3-MoO3 binary system: an alternative ultralow sintering temperature microwave dielectric”, Journal of The American Ceramic Society, 92:2242-2246, 2009.

143.  Haibo Yang, Hong Wang*, Feng Xiang, Xi Yao, “Microstructure and electromagnetic properties of SrTiO3/Ni0.8Zn0.2Fe2O4 composites by hybrid process”, Journal of the American Ceramic Society, 92:2005-2010, 2009.

144.  Di Zhou, Clive A. Randall, Hong Wang*, Li-Xia Pang, Xi Yao, “Microwave dielectric properties trends in a solid solution (Bi1-xLnx)2Mo2O9 (Ln=La, Nd, 0.0 < x < 0.2) System”, Journal of the American Ceramic Society, 92:2931–2936, 2009.

145.  Di Zhou, Hong Wang*, Li-Xia Pang, Xi Yao, Xinguang Wu, “Low temperature firing of BiSbO4 microwave dielectric ceramic with B2O3–CuO addition”, Journal of the European Ceramic Society, 29:1543–1546, 2009.

146.  Haibo Yang, Hong Wang*, Feng Xiang, Xi Yao, “Multifunctional SrTiO3/NiZn ferrite/POE composites with eletromagnetic and flexible properties for RF applications”, Journal of Electroceramics, 22: 221-226, 2009.

147.  S. Glinšek, B. Malič,  Z. Kutnjak, H. Wang, J. Krupka,  M. Kosec, “Dielectric properties of KTa0.6Nb0.4O3 thin films on alumina substrates prepared by chemical solution deposition”, Applied Physics Letters, 94: 172905, 2009.

148.  Di Zhou, Lixia Pang, Hong Wang*, Xi Yao, “Phase composition and phase transformation in Bi(Sb,Nb,Ta)O4 system”, Solid State Sciences, 11:1894–1897, 2009.

149.  Weihong Liu, Hong Wang*, Li Kecheng, Zhang Minghui, Yao Xi, “Bi1.5ZnNb1.5O7 cubic pyrochlore ceramics prepared by aqueous solution–gel method”, Journal of Sol-Gel Science and Technology, 52:153–157, 2009.

150.  Lixia Pang, Hong Wang*, Di Zhou, Xi Yao, “Sintering behavior, structures and microwave dielectric properties of a rutile solid solution system: (A(x)Nb(2x))Ti1-3xO2 (A=Cu, Ni)”, J Electroceram, 23:13-18, 2009.

151.  Tingyin Ning, Yueliang Zhou, Heng Lu, Dongxiang Zhang, Guozhen Yang, Hong Wang,  “Large nonlinear optical response of a Bi1.5Zn1.0Nb1.5O7 thin film fabricated by pulsed laser deposition”, Thin Solid Films , 517: 4626-4628, 2009.

152.  Lixia Pang, Hong Wang*, Di Zhou, Xi Yao, “Raman spectroscopy and microwave dielectric properties of Zr1-x (Li1/4Nb3/4)xTiO4 ceramics”, Japanese Journal of Applied Physics, 48: 0514031-0514035, 2009.

153.  Minghui Zhang, Hong Wang*, Feng Xiang, Xi Yao, “Low-temperature firing (Ba0.6Sr0.4)TiO3 thick film prepared by screen printing”, International Journal of Applied Ceramic Technology, 6(2):257-263, 2009.

154.  Lixia Pang, Hong Wang*, Di Zhou, Yuehua Chen, Xi Yao, “Microstructures and microwave dielectric properties of low-temperature sintered Ca2Zn4Ti15O36 ceramics”, Journal of Materials Science: Materials in Electronics, 20:528-533, 2009.

155.  Huanfu Zhou, Hong Wang*, Kecheng Li, Haibo Yang, Minghui Zhang, Xi Yao, “Microwave dielectric properties of ZnO-2TiO2-Nb2O5 ceramics with BaCu (B2O5) addition”, Journal of Electronic Materials, 38(5):711-715, 2009.

156.  Huanfu Zhou, Hong Wang*,  Minghui Zhang, Xi Yao, “Microwave dielectric properties of the 5.5Li2O–Nb2O5–7TiO2 ceramics”, Applied Physics A: Materials Science & Processing, 95(2):513-516, 2009.

157.  Di Zhou, Li-Xia Pang, Xi Yao, Hong Wang*, “Influence of sintering process on the microwave dielectric properties of Bi(V0.008Nb0.992)O4 ceramics”, Materials Chemistry and Physics, 115:126-131, 2009

158.  Di Zhou, Hong Wang*, Li-Xia Pang, Xi Yao, Yuehua Chen, “Sintering behavior, phase evolution and microwave dielectric properties of Bi{Sb1x(Nb0.992V0.008)x}O4 ceramics”, Materials Chemistry and Physics, 113:265-268, 2009.

159.  Huanfu Zhou, Hong Wang*,  Yuehua Chen, Kecheng Li, Xi Yao, “Low temperature sintering and microwave dielectric properties of Ba3Ti5Nb6O28 ceramics with BaCu(B2O5) additions”, Materials Chemistry and Physics, 113:1-5, 2009.

160.  Huanfu Zhou, Hong Wang*, Kecheng Li and Xi Yao  “Effect of B2O3 and CuO additions on the sintering temperature and microwave dielectric properties of 3Li2O–Nb2O5–3TiO2 ceramics”, Journal of Materials Science: Materials in Electronics, 20(3):283-288, 2009.

161.  Huanfu Zhou, Hong Wang*, Di Zhou, Lixia Pang, Xi Yao, “Microwave dielectric properties of 3Li2O-Nb2O5-3TiO2 ceramics with Li2O-V2O5 additions”, Journal of Materials Science: Materials in Electronics, 20(1):39-43, 2009.

162.  Qian Wang, Hong Wang*, Xi Yao, “Structure, dielectric and optical properties of Bi1.5+xZnNb1.5O7+1.5x pyrochlores”, Ceramics International, 35:143–146, 2009

163.  Dongshi Zhang, Feng Chen, Jianzhang Shi, Hewei Liu, Hong Wang, Jinhai Si, Yao Xi, “Fabrication of Periodic Microholes in BiNbO4 by Femtosecond Laser Pulses for the Applications of 2D Photonic Crystal Waveguide”, Ferroelectrics, 387:130–136, 2009.

164.  Huanfu Zhou, Hong Wang*, Kecheng Li, Minghui Zhang, Yao Xi, “Effect of B2O3 additions on the sintering temperature and microwave dielectric properties of 5.5Li2O-Nb2O5-7TiO2 ceramics”, Ferroelectrics, 381:17–23, 2009.

165.  S. Glinsek, B. Malic,  Z. Kutnjak, H. Wang, J. Krupka,  M. Kosec, “Radio and microwave frequency range dielectric properties of K(Ta,Nb)O3 thin films” Proceedings of the 45th International Conference on Microelectronics, Devices and Materials, published by MIDEM, edited by M.Topic, J.Krc and I.Sorli, pp.203-208, Ljubljana, Slovenia, September 2009.

166.  Di Zhou, Hong Wang*, Lixia Pang, Xi Yao, Xinguang Wu, “Microwave dielectric characterization of a Li3NbO4 ceramic and its chemical compatibility with silver”, Journal of the American Ceramic Society, 91(12):4115-4117, 2008.

167.  Di Zhou, Hong Wang*, Xi Yao, Lixia Pang, “Microwave dielectric properties of low temperature firing Bi2Mo2O9 ceramic”, Journal of the American Ceramic Society, 91(10):3419-3422, 2008.

168.  Huanfu Zhou, Hong Wang*, Yuhua Chen, Kecheng Li, Xi Yao, “Microwave dielectric properties of BaTi5O11 ceramics prepared by reaction-sintering process with the addition of CuO”, Journal of the American Ceramic Society, 91(10):3444-3447, 2008.

169.  Zhiyuan Shen, Hong Wang*, Jianzhang Shi, Xi Yao, “Electromagnetic bandgap structure containing high-K dielectric ceramics”, Journal of the American Ceramic Society, 91(9):2892-2896, 2008.

170.  Lixia Pang, Hong Wang*, Di Zhou, Xi Yao, “Sintering behavior, structures, and microwave dielectric properties of (LixNb3x)Ti1-4xO2”, Journal of the American Ceramic Society, 91(9):2947-2951, 2008.

171.  Di Zhou, Hong Wang*, Xi Yao, Lixia Pang, “Sintering behavior, phase evolution, and microwave dielectric properties of Bi(Sb1-xTax)O4 ceramics”, Journal of the American Ceramic Society, 91(7):2228-2231, 2008.

172.  Di Zhou, Hong Wang*, Xi Yao, Lixia Pang, “Dielectric behavior and co-firing with silver of monoclinic BiSbO4 ceramic”, Journal of the American Ceramic Society, 91(4):1380-1383, 2008.

173.  Di Zhou, Hong Wang*, Xi Yao, “Nano-Powders Preparation and Dielectric Properties of Bi2O3-Nb2O5 Binary System Prepared by High Energy Ball Milling Method”, Journal of the American Ceramic Society, 91(1):139-143, 2008.

174.  Meiling Zhang, Hong Wang*, Xi Yao, “Effect of Ca substitution on structure and dielectric properties of bismuth-based microwave ceramics”, Journal of Electroceramics, 21: 461-464, 2008.

175.  Lei Zhang, Xi Yao, Hong Wang*, Di Zhou, “The Effect of sintering atmosphere on V2O5 substituted BiNbO4 microwave ceramics”, Journal of Electroceramics, 21: 465-468, 2008.

176.  Feng Xiang, Hong Wang*, Xi Yao, “Frequency-temperature compensation mechanism for bismuth based dielectric/PTFE microwave composite”, Journal of Electroceramics, 21: 457-460, 2008.

177.  Jianzhang Shi, Hong Wang*, Tingwei Yao, Feng Xiang, Xi Yao, “Fabrication and properties of 2-D EBGs by moulding/demoulding with high permittivity ceramics”, Journal of Electroceramics, 21: 452-456, 2008.

178.  Di Zhou, Hong Wang*, Xi Yao, Yun Liu, “Microwave dielectric properties of low-firing BiNbO4 ceramics with V2O5 substitution”, Journal of Electroceramics, 21: 469-472, 2008.

179.  Yun Liu, Ray L Withers, T. R. Welberry, Hong Wang, Huiling Du, Xi Yao, “Structure disorder in BZN-based pyrochlores”, Journal of Electroceramics, 21: 401-404, 2008.

180.  Huiling Du, Xi Yao and Hong Wang, “Relaxor-like of bismuth-based pyrochlores containing Sn”, Journal of Electroceramics, 21: 222-225, 2008.

181.  Wangyang Fu, Hong Wang, Lingzhu Cao, Yueliang Zhou, “Bi1.5Zn1.0Nb1.5O7/Mn-doped Ba0.6Sr0.4TiO3 heterolayered thin films with enhanced tunable performance”, Applied Physics Letters, 921829102008.

182.  Lixia Pang, Hong Wang*, Di Zhou, Huanfu Zhou, Xi Yao, “Low-temperature firing and microwave dielectric properties of Ca[(Li1/3Nb2/3)0.8Ti0.2]O3-delta ceramics with ZnB2O4 glass addition”, International Journal of Applied Ceramic Technology, 5(4):341-346, 2008.

183.  Di Zhou, Hong Wang*, Xi Yao, Lixia Pang, “Sintering behavior and microwave dielectric properties of Bi-3(Nb1-xTax)O-7 solid solutions”, Materials Chemistry and Physics, 110(2-3):212-215, 2008.

184.  Di Zhou, Hong Wang*, Xi Yao, “Microwave dielectric properties and co-firing with copper of (Bi1-xCux)(Nb1-xWx)O4 Ceramics, Ceramics International, 34(4):929-932, 2008.

185.  Di Zhou, Hong Wang*, Xi Yao, Li-Xia Pang, “Sintering behavior and microwave dielectric properties of Bi2O3–ZnO–Nb2O5 based ceramics sintered under air and N2 atmosphere”, Ceramics International, 34(4):901-904, 2008.

186.  Feng Xiang, Hong Wang*, Minghui Zhang, Xu Sun and Xi Yao, “Preparation and dielectric tunability of Bismuth-based pyrochlore dielectric thick films on alumina substrates”, Ceramics International, 34(4):925-928, 2008.

187.  Huanfu Zhou, Hong Wang*, Xi Yao, “Effect of ZnO and B2O3 on the sintering temperature and microwave dielectric properties of LiNb0.6Ti0.5O3 ceramics”, Materials Chemistry and Physics, 109(2-3):510-514, 2008.

188.  Huanfu Zhou, Hong Wang*, Xi Yao, “Microwave dielectric properties of the 5.7Li2O-Nb2O5-7.3TiO2 ceramics”, Journal of Material Science, 43(10):3725-3727, 2008.   

189.  施建章,汪宏*W. Jillek, 姚熹,喷墨打印用BZN陶瓷墨水的制备及其性质研究,无机材料学报, 23(2):257-261, 2008.

190.  Haibo Yang, Feng Xiang, Hong Wang*, Xi Yao, Dielectric and magnetic properties of SrTiO3/NiZn ferrite/polypropylene composites for high-frequency application, Journal of the Ceramic Society of Japan, 116(1351):418-421, 2008.

191.  Xiaojun Xie, Yonghong Cheng, Hong Wang, Qian Wang, Xiaolin Chen, Caixin Sun, “Structural study of cubic pyrochlores based on quantum mechanical simulation”, Ceramics International, 34: 689–693, 2008.

192.  Feng Xiang, Hong Wang*, Kecheng Li, Yuehua Chen, Minghui Zhang,Ziyuan Shen, and Xi Yao, “Dielectric tunability of Ba0.6Sr0.4TiO3/poly(methyl methocrylate) composites in 1-3-type structure”, Applied Physics Letters, 91:192907, 2007.

193.  Di Zhou, Hong Wang*, Xi Yao, Xiaoyong Wei, Feng Xiang and Lixia Pang“Phase transition in BiNbO4 ceramics”, Applied Physics Letters, 90: 172910, 2007.

194.  Qian Wang, Hong Wang*, Xi Yao, “Structure, dielectric and optical properties of Bi1.5ZnNb1.5-xTaxO7 cubic pyrochlores”, Journal of Applied Physics, 101: 104116, 2007.

195.  Di Zhou, Wei Wu, Hong Wang*, Yansheng Jiang, Xi Yao, “The two element antennas using BiNbO4 ceramics as the substrates”, Materials Science & Engineering A, 460-461: 652-655, 2007.

196.  Di Zhou, Hong Wang*, Xi Yao, “Microwave dielectric properties and co-firing of BiNbO4 ceramics with CuO-WO3 substitution”, Materials Science and Engineering B, 142 (2-3): 106-111, 2007.

197.  Di Zhou, Hong Wang*, Xi Yao, “Layered complex structures of Bi2(Zn2/3Nb4/3)O7 and BiNbO4 dielectric ceramics”, Materials Chemistry and Physics, 105(2-3): 151-153, 2007.

198.  Di Zhou, Hong Wang*, Xi Yao, “Microwave dielectric properties and cofiring of BiNbO4 ceramics with CuO substitution”, Materials Chemistry and Physics, 104(2-3):397-402, 2007.

199.  L Z Cao, W Y Fu, S F Wang, Q Wang, Z H Sun, H Yang, B L Cheng, H Wang, Y L Zhou, “Effects of film thickness and preferred orientation on the dielectric properties of (Bi1.5Zn0.5)(Zn0.5Nb1.5)O7 films”, Journal of Physics D: Applied Physics, 40: 2906-2910, 2007.

200.  Feng Xiang, Hong Wang*, Xi Yao, “Dielectric properties of SrTiO3/POE flexible composite for microwave applications”, Journal of the European Ceramic Society, 27:3093-3097, 2007.

201.  Di Zhou, Hong Wang*, Xi Yao, “Sintering behavior and dielectric properties of Bi3NbO7 ceramics prepared by mixed oxides and high energy ball milling methods”, Journal of the American Ceramic Society, 90(1): 327-329, 2007.

202.  L Z Cao, W Y Fu, S F Wang, Q Wang, Z H Sun, H Yang, B L Cheng, H Wang, Y L Zhou, “C-axial oriented (Bi1.5Zn0.5)(Zn0.5Nb1.5)O7 film grown on Nb doped SrTiO3 substrates by pulsed laser deposition”, Journal of Physics D: Applied Physics, 40: 1460-1463, 2007.

203.  Di Zhou, Hong Wang*, Huanfu Zhou, Xiaojun Xie, Xi Yao, Yonghong Cheng, “Preparation of Sb3Nb3O13 powders using molten salt method”, Journal of Materials Science, 42:8387-8390, 2007.

204.  Jianzhang ShiHong Wang*Xu SunXi Yao, “A Sandwich Like EBGs With Three Different Materials and Its Defect Modes”, Ferroelectrics, 355:182-188, 2007.

205.  施建章,汪宏*,沈智元,王楠,姚熹,埋入式厚膜多层电容器的制备及其性能研究,稀有金属材料与工程,36Z1):954-9562007.

206.  Hong Wang*, Stanislav Kamba, Huiling Du, Chih-Ta Chia, Meiling Zhang, S Veljko., S Denisov., F Kadlec, Jan Petzelt, Xi Yao, “Microwave dielectric relaxation in cubic bismuth based pyrochlores containing Titanium”, Journal of Applied Physics, 100:014105, 2006.

207.  Hong Wang*, Stanislav Kamba, Meiling Zhang, Xi Yao, Sergey Denisov, Filip Kadlec, Jan Petzelt, “Microwave and infrared dielectric response of monoclinic Bismuth Zinc Niobate based pyrochlore ceramics with ion substitution in A site”, Journal of Applied Physics, 100:034109, 2006.

208.  Wangyang Fu, Lingzhu Cao, Shufang Wang, Zhihui Sun, and Bolin Cheng, Qian Wang and Hong Wang, “Dielectric properties of Bi1.5Zn1.0Nb1.5O7/Mn-doped Ba0.6Sr0.4TiO3 heterolayered films grown by pulsed laser deposition”, Applied Physics Letters, 891329082006.

209.  Huiling Du, Xi Yao, Hong Wang, “Dielectric properties of pyrochlore (Bi1.5Zn0.5)(Nb0.5M1.5)O7 (M= Ti, Sn, Zr and Ce) dielectrics”, Applied Physics Letters, 88 (21): 212901, 2006.

210.  Feng Xiang, Hong Wang*, Xi Yao, “Preparation and dielectric properties of bismuth based dielectric/PTFE microwave composites”, Journal of the European Ceramic Society, 26:1999-2002, 2006.

211.  Stanislav Kamba, Hong Wang, Berta Milan, Kadlec Filip, Petzelt Jan, Di Zhou, Xi YaoCorrelation of infrared and THz dielectric properties of antiferroelectric BiNbO4 with microwave properties, Journal of the European Ceramic Society, 26: 2862-2865, 2006.

212.  Yun Liu, Ray L Withers, T. R. Welberry, Hong Wang, Huiling Du, “Crystal chemistry on a lattice: The case of BZN and BZN-related pyrochlores”, Journal of Solid State Chemistry, 179:2137-2145, 2006.

213.  Hong Wang*, R. Elsebrock, R. Waser, Xi Yao, “Low temperature microwave properties of bismuth based dielectric properties”, Ferroelectrics, 327: 33-37, 2005.

214.  Zhengrong Li, Zengzhe Xi, Zhuo Xu, Hong Wang, Xi Yao, “High temperature phase diagram of PMN-PT binary system”, Ferroelectrics, 326: 31-35, 2005.

215.  Hong Wang*, R Elsebrock, T Schneller, R Waser, Xi Yao, “Bismuth Zinc Niobate (Bi1.5ZnNb1.5O7) ceramics derived from metalloorganic decomposition precursor solution”, Solid State Communications, 132:481-486, 2004.

216.  Hong Wang*, Zhen Peng, Huiling Du, Tingwei Yao, Xi Yao, “Mn4+ and W6+ substitution on Bi2O3–ZnO–Nb2O5-based low firing ceramics”, Ceramics International, 30:1219-1223, 2004.

217.  Hong Wang*, Huiling Du, Zhen Peng, Meiling Zhang, Xi Yao, “Improvements of sintering and dielectric properties on Bi2O3-ZnO-Nb2O5 pyrochlore ceramics by V2O5 substitution”, Ceramics International, 30:1225-1229, 2004.

218.  Zhen Peng, Hong Wang*, Xi Yao, “Dielectric resonator antennas using high permittivity ceramics”, Ceramics International, 30:1211-1214, 2004.

219.  Huiling Du, Hong Wang, Xi Yao, “Observations on structural evolution and dielectric properties of oxygen-deficient pyrochlores”, Ceramics International, 30:1383-1287, 2004.

220.  Hong Wang*, Huiling Du, Xi Yao, “Structural study of Bi2O3-ZnO-Nb2O5 based pyrochlores”, Materials Science and Engineering B, 99:20-24, 2003.

221.  Hong Wang*, Xi Yao, “Structure and dielectric properties of pyrochlore-fluorite biphase ceramics in Bi2O3-ZnO-Nb2O5 system”, Journal of Materials Research, 16(1): 83-87, 2001.

222.  Hong Wang*, Xi Yao, “Structure study of a new distorted pyrochlore in Bi2O3-ZnO-Nb2O5 system”, Ferroelectrics, 262:71-76, 2001.

223.  Hong Wang*, Xi Yao, “Melting behaviors of pyrochlores in Bi2O3-ZnO-Nb2O5 system”, Ferroelectrics, 261: 225-231, 2001.

224.  Huiling Du,  Xi Yao Hong Wang, “The effect of CuO on sintering characteristics and dielectric properties of Bi2O3-ZnO-Nb2O5 pyrochlore”Ferroelectrics, 262:89-94, 2001.

225.  Yujun Feng, Xi Yao, Zhuo Xu, Hong Wang, Shuguang Zheng, “Temperature dependence of swithing fields in Pb(Zn,Sn,Ti)O3”, Ferroelectrics, 262: 101-106, 2001.

226.  Huiling Du, Hong Wang,  Xi YaoElectro-plating technology of high performance low sintering BZN based MLCFerroelectrics Letters, 28: 1-2, 2001.

227.  杜慧玲,汪宏,许丽君,姚熹,“K+La3+联合取代AZn2+BZN基陶瓷的相结构与介电性能研究,硅酸盐学报,28(3):210-2132000.

228.  杜慧玲,汪宏,姚熹,高性能低烧BZN基多层陶瓷电容器电镀工艺研究,功能材料,31(4):398-4002000.

229.  任庆利,汪宏“TiO2掺杂对BZN系陶瓷相组成及温度系数影响,压电与声光,21(6): 471-4741999.

230.  Hong Wang*, Desheng Zhang, Xiaoli Wang, Xi Yao, "Effect of La2O3 substitution on structure and properties of Bi2O3-ZnO-Nb2O5 based pyrochlore ceramics", Journal of Materials Research, 14(2): 546-548, 1999.

231.  Hong Wang*, Xi Yao, Feng Xia, "Effect of SiO2, B2O3 on structure and dielectric properties of Bi2O3-ZnO-Nb2O5 based ceramics”, Ferroelectrics, 229:285-290, 1999.

232.  Hong Wang*, Xi Yao, Liangying Zhang, Feng Xia, "Phase transition of pyrochlore structure in Bi2O3-ZnO-Nb2O5 system”, Ferroelectrics, 229: 95-101, 1999.

233.  汪宏*,王晓莉,姚熹,“Bi2O3-ZnO-Nb2O5三元系中焦绿石结构与相分布,材料研究学报,23(2), 1998.

234.  汪宏*,张德生,王晓莉,姚熹,“La3+取代Bi3+Bi2O3-ZnO-Nb2O5基陶瓷的结构与介电性能,硅酸盐学报,  26(4),  1998.

235.  Hong Wang*, Xiaoli Wang, Xi Yao, "Phase equilibrium in Bi2O3-ZnO-Nb2O5 system", Ferroelectrics, 195: 19-22, 1997.

236.  Xiaoli Wang, Hong Wang, Xi Yao, "Structure, phase transformation and dielectric properties of pyrochlore containing bismuth", J. Am. Ceram. Soc., 80(10): 2745-48, 1997.

237.  Hong Wang*, Xiaoli Wang, Liangying Zhang and Xi Yao, "Phase transformation and phase distribution of pyrochlore structure in Bi2O3-ZnO-Nb2O5 system", Proceedings II of the 10th IEEE International Symposium on Applications of Ferroelectrics, East Brunswick, USA, Aug., 1996, pp.787-790.

238.  Hong Wang*, Xiaoli Wang, Liangying Zhang and Xi Yao, "Preparation, structure and dielectric properties of bismuth-based ceramic dielectrics", Proceedings of the 9th International Symposium on Electret, Shanghai, China, Sep., 1996, pp.1024-1029.

239.  汪宏*,王晓莉,姚熹,“Bi2O3-ZnO-Nb2O5三元系统中焦绿石结构的研究,硅酸盐学报,23(3): 241-247, 1995.

240.  汪宏*,王晓莉,姚熹,“Bi2O3-ZnO-Nb2O5三元系中焦绿石结构及相变 西安交通大学学报,29(9): 24-28, 1995.

241.  Hong Wang*, Biao Huang, Xiaoli Wang, Xi Yao, "Effect of Bi2O3 and sintering temperature on pyrochlore Structure in the Bi2O3-ZnO-Nb2O5 system", Proceedings of 4th International Conference on Electronic Ceramics & Applications, 139-142, Sep. 5-7, 1994, Aachen, Germany.

242. Hong Wang*, Xiaoli Wang, Liangying Zhang, Xi Yao, "Structural study of cubic pyrochlore in the Bi2O3-ZnO-Nb2O5 system", Proceedings of 4th International Conference on Electronic Ceramics & Applications, 143-146, Sep. 5-7, 1994, Aachen, Germany.