All Stories

  1. Hafnium silicate: a new microwave dielectric ceramic with low thermal expansivity
  2. Self assembled polyaniline nanofibers with enhanced electromagnetic shielding properties
  3. Dielectric, thermal and mechanical properties of zirconium silicate reinforced high density polyethylene composites for antenna applications
  4. Room temperature curable zirconium silicate dielectric ink for electronic applications
  5. Structural, dielectric and thermal properties of Ca9R2W4O24 [R–Nd, Sm] ceramics
  6. Room temperature curable silica ink
  7. Microwave dielectric and thermal properties of mixed rare earth ortho phosphate [REmixPO4]
  8. Electromagnetic interference shielding properties of butyl rubber-single walled carbon nanotube composites
  9. Development of butyl rubber–rutile composites for flexible microwave substrate applications
  10. HDPE Matrix Composites Filled With Ca 4 La 6 (SiO 4 ) 4 (PO 4 ) 2 O 2 for Microwave Substrate Applications
  11. The effect of Ga3+ addition on the sinterability and microwave dielectric properties of RE3Al5O12 (Tb3+, Y3+, Er3+ and Yb3+) garnet ceramics
  12. Material Characterization and Microwave Substrate Applications of Alumina‐Filled Butyl Rubber Composites
  13. Effect of Ca2+ Substitution on the Structure, Microstructure, and Microwave Dielectric Properties of Sr2Al2SiO7 Ceramic
  14. Butyl rubber–Ba0.7Sr0.3TiO3 composites for flexible microwave electronic applications
  15. Effect of silver incorporation into PVDF-barium titanate composites for EMI shielding applications
  16. Effect of glass fluxing on densification and microwave dielectric properties of LiInSiO4 ceramic
  17. Crystal Structure and Microwave Dielectric Properties of LiRE9(SiO4)6O2 Ceramics (RE = La,Pr<...
  18. Facile Synthesis of “Quench‐Free Glass” and Ceramic‐Glass Composite for LTCC Applications
  19. Electromagnetic interference shielding nature of PVDF-carbonyl iron composites
  20. Casting and characterization of LiMgPO4 glass free LTCC tape for microwave applications
  21. Effect of isovalent substitutions on the microwave dielectric properties of Ca4La6(SiO4)4(PO4)2O2 apatite
  22. A NOVEL DIELECTRIC CERAMIC FOR MICROWAVE PASSIVE CIRCUITS
  23. SINTERING AND MICROWAVE DIELECTRIC PROPERTIES OF AlPO 4 -MgF 2 CERAMIC COMPOSITE
  24. Effect of glass fillers in Cu2ZnNb2O8 ceramics for advanced microwave applications
  25. Effect of Zn2+ substitution on the microwave dielectric properties of LiMgPO4 and the development of a new temperature stable glass free LTCC
  26. Improved Dielectric and Mechanical Properties of Polystyrene–Hybrid Silica Sphere Composite Induced through Bifunctionalization at the Interface
  27. Temperature compensated Sr2Al2SiO7 ceramic for microwave applications
  28. Buffer Assisted Epitaxial Growth of Bi1.5Zn1Nb1.5O7 Thin Films by Pulsed Laser Deposition for Optoelectronic Applications
  29. Microwave dielectric properties of flexible butyl rubber–strontium cerium titanate composites
  30. Composite Electroceramics
  31. Mechanically Flexible Butyl Rubber-SrTiO3 Composite Dielectrics for Microwave Applications
  32. Microwave Dielectric Properties of Ca2+xLa8−x(SiO4)6−x(PO4)xO2 Solid Solution
  33. Crystal Structure of Apatite Type Rare-Earth Silicate (Sr2RE2)(RE6)(SiO4)6O2 (RE=La, Pr, Tb, Tm, and Y)
  34. Microwave dielectric properties of alkaline earth orthosilicates M2SiO4 (M=Ba, Sr, Ca)
  35. ChemInform Abstract: Vibrational Spectroscopy of Ca2LnTaO6 (Ln: Lanthanides, Y, and In) and Ca2InNbO6 Double Perovskites.
  36. Low-Temperature Sintering and Microwave Dielectric Properties of Li2ATi3O8 (A=Mg, Zn) Ceramics
  37. Vibrational Spectroscopy of Ca2LnTaO6 (Ln = lanthanides, Y, and In) and Ca2InNbO6 Double Perovskites
  38. Temperature‐Compensated LiMgPO4: A New Glass‐Free Low‐Temperature Cofired Ceramic
  39. Microwave dielectric properties of novel temperature stable high Q Li2Mg1−Zn Ti3O8 and Li2A1−Ca Ti3O8 (A = Mg, Zn) ceramics
  40. Synthesis and Microwave Dielectric Properties of Novel Temperature Stable High Q, Li2ATi3O8 (A=Mg, Zn) Ceramics
  41. Crystal Structure and Microwave Dielectric Properties of LaLuO3 Ceramics
  42. Low temperature sintering and microwave dielectric properties of Ce2(WO4)3 ceramics
  43. Polymer–Ceramic Composites of 0–3 Connectivity for Circuits in Electronics: A Review
  44. Dielectric, Mechanical, and Thermal Properties of Low‐Permittivity Polymer–Ceramic Composites for Microelectronic Applications
  45. Microwave Dielectric Properties of Co2La4Ti3Si4O22 Ceramics
  46. Tape Casting and Dielectric Properties of Sr2ZnSi2O7-Based Ceramic-Glass Composite for Low-Temperature Co-fired Ceramics Applications
  47. Synthesis, Characterization, and Microwave Dielectric Properties of Sr2−xLa2Mg1+xW2O12 (x=0, 1) Ceramics
  48. Effect of Glass Addition on the Microwave Dielectric Properties of CaMgSi2O6 Ceramics
  49. Piezoelectric and ferroelectric properties of new Pb9Ce2Ti12O36 and lead-free Ba2NdTi2Nb3O15 ceramics
  50. Correction to Crystal Structure of Sr0.4Ce0.4TiO3 Ceramics
  51. Microwave dielectric properties of (1−x)CeO2–xRE2O3 (RE=La, Nd, Sm, Eu, Gd, Dy, Er, Tm, Yb and Y) (0≤x≤1) ceramics
  52. Microwave Dielectric Properties of (Sr1−xAx)2(Zn1−xBx)Si2O7 Ceramics (A=Ca, Ba and B=Co, Mg, Mn, Ni)
  53. Influence of Ca[(Li1/3Nb2/3)0.8Ti0.2]O3‐δ filler on the microwave dielectric properties of polyethylene and polystyrene for microelectronic applications
  54. Microwave Dielectric Properties of SrRE4Si3O13 (RE=La, Pr, Nd, Sm, Eu, Gd, Tb, Dy, Er, Tm, Yb, and Y) Ceramics
  55. Vibrational spectroscopic study of Sr2ZnTeO6 double perovskites
  56. CeO2–La0.5Sr0.5CoO3−δcomposites for giant permittivity applications
  57. Crystal Structure of Sr0.4Ce0.4TiO3 Ceramics
  58. The Effect of Dopants on the Dielectric Properties of Ba(B′1/2Ta1/2)O3 (B′=La, Pr, Nd, Sm, Eu, Gd, Tb, Dy, Ho, Y, Yb, and In) Microwave Ceramics
  59. Novel Low Loss, Low Permittivity Glass-Ceramic Composites for LTCC Applications
  60. Enhanced permittivity by the adhesion of conducting and low‐loss insulating ceramics in polystyrene
  61. Tape Casting and Dielectric Properties of Zn2Te3O8‐Based Ceramics with an Ultra‐Low Sintering Temperature
  62. Effective Size of Vacancies in the Sr 1‐3 x /2 Ce x /TiO 3 ...
  63. Low‐Temperature Sintering and Microwave Dielectric Properties of Li2MgSiO4 Ceramics
  64. Three-phase polymer–ceramic–metal composite for embedded capacitor applications
  65. Effect of lithium-based glass addition on the microwave dielectric properties of Ca[(Li1/3Nb2/3)1−xTix]O3−δ ceramics for LTCC applications
  66. Ferroelectric and Incipient Ferroelectric Properties of a Novel Sr9−xPbxCe2Ti12O36(x = 0−9) Ceramic System
  67. Microwave and infrared dielectric properties of Sr1−3x/2CexTiO3(x= 0.154–0.400) incipient ferroelectrics at cryogenic temperatures
  68. Microwave Dielectric Properties and Low Temperature Sintering of Sm2Si2O7 Ceramic for Substrate Applications
  69. Ferroelectric and Incipient Ferroelectric Properties of a Novel Sr9−xPbxCe2Ti2O36(x = 0−9) Ceramic System
  70. Percolation phenomenon in barium samarium titanate–silver composite
  71. Microwave Dielectric Properties and Low‐Temperature Sintering of Cerium Oxide for LTCC Applications
  72. Microwave Dielectric Properties of ATe 3 O 8 (A = Sn, Zr) Ceramics
  73. Effect of sintering temperature on the percolation threshold and the dielectric properties Ca[(Li1/3Nb2/3)1–x Tix]O3–δ – Ag composite
  74. Raman Scattering and Infrared Spectroscopy of Chemically Substituted Sr2LnTaO6(Ln = Lanthanides, Y, and In) Double Perovskites
  75. Low loss, temperature stable dielectric ceramics in ZnNb2O6–Zn3Nb2O8 system for LTCC applications
  76. ChemInform Abstract: Structure of Compounds in the Sr1‐3x/2CexTiO3 Homologous Series.
  77. Low Dielectric Loss PTFE/CeO2 Ceramic Composites for Microwave Substrate Applications
  78. Vibrational Studies and Microwave Dielectric Properties of A-Site-Substituted Tellurium-Based Double Perovskites
  79. Effect of Filler Content on the Dielectric Properties of PTFE/ZnAl2O4–TiO2 Composites
  80. Structure of Compounds in the Sr1–3x/2CexTiO3 Homologous Series
  81. Effect of B2O3-Bi2O3-SiO2-ZnO glass on the sintering and microwave dielectric properties of 0.83ZnAl2O4-0.17TiO2
  82. Microwave Dielectric Properties and Low‐Temperature Sintering of (1−x)CeO2−xBaTi4O9 Ceramics
  83. MICROWAVE DIELECTRIC MATERIALS IN THE BaO–TiO2 SYSTEM
  84. MEASUREMENT OF MICROWAVE DIELECTRIC PROPERTIES AND FACTORS AFFECTING THEM
  85. APPENDIX 2
  86. INTRODUCTION
  87. ABO3 TYPE PEROVSKITES
  88. CATION-DEFICIENT PEROVSKITES
  89. LOW TEMPERATURE COFIRED CERAMICS
  90. CONCLUSION
  91. APPENDIX 1
  92. INDEX
  93. Color Plates
  94. ZIRCONIUM TIN TITANATE
  95. FOREWORD
  96. ACKNOWLEDGMENT
  97. ALUMINA, TITANIA, CERIA, SILICATE, TUNGSTATE AND OTHER MATERIALS
  98. A(B′1/3B″2/3)O3 COMPLEX PEROVSKITES
  99. TAILORING THE PROPERTIES OF LOW-LOSS DIELECTRICS
  100. A(B′1/2B″1/2)O3 [A = A2+ OR A3+; B′ = B2+,B3+; B″ = B4+,B5+,B6+] COMPLEX PEROVSKITES
  101. Ca(Ca1/4B2/4Ti1/4)O3 (B = Nb, Ta) COMPLEX PEROVSKITES
  102. PSEUDO-TUNGSTEN BRONZE-TYPE DIELECTRIC MATERIALS
  103. Optical Phonon Modes and Dielectric Behavior of Sr1–3x/2CexTiO3 Microwave Ceramics
  104. Low Dielectric Loss Polytetrafluoroethylene/TeO2 Polymer Ceramic Composites
  105. Giant Permittivity of a Bismuth Zinc Niobate–Silver Composite
  106. Tailoring the Microwave Dielectric Properties of MgNb2O6 and Mg4Nb2O9 Ceramics
  107. Structure and Microwave Dielectric Properties of Sr2+nCe2Ti5+nO15+3n(n≤ 10) Homologous Series
  108. Microwave Dielectric Properties of La6Mg4A2W2O24[A=Ta and Nb] Ceramics
  109. Microwave Dielectric Properties of A6B5O18‐Type Perovskites
  110. Microwave dielectric properties of CeO2–0.5AO–0.5TiO2 (A=Ca, Mg, Zn, Mn, Co, Ni, W) ceramics
  111. Doped Ca(Ca1/4A2/4Ti1/4)O3 (A=Nb, Ta) Dielectrics for Microwave Telecommunication Applications
  112. Raman-spectroscopic investigations on the crystal structure and phonon modes of Ba(RE1/2Ta1/2)O3 microwave ceramics
  113. Microwave Dielectric Properties of La5CrTi3O15 and La4MCrTi3O15 (M=Pr, Nd, and Sm) Ceramics
  114. Synthesis, Characterization, and Microwave Dielectric Properties of ATiO3 (A=Co, Mn, Ni) Ceramics
  115. Chemical Substitution in Ba(Ln1/2Nb1/2)O3 (Ln: La, Nd, Sm, Gd, Tb, and Y) Microwave Ceramics and Its Influence on the Crystal Structure and Phonon Modes.
  116. Experimental investigations and three-dimensional transmission line matrix simulation of Ca5−xAxB2TiO12 (A=Mg, Zn, Ni, and Co; B=Nb and Ta) ceramic resonators
  117. Chemical Substitution in Ba(RE1/2Nb1/2)O3 (RE = La, Nd, Sm, Gd, Tb, and Y) Microwave Ceramics and Its Influence on the Crystal Structure and Phonon Modes
  118. The effect of dopants on the microwave dielectric properties of Ba(Mg0.33Ta0.67)O3 ceramics
  119. Vibrational spectroscopy and microwave dielectric properties of Ca5−xBaxNb2TiO12 and Ca5−xBaxTa2TiO12 ceramics
  120. Tailoring the Microwave Dielectric Properties of Ca5Ta2TiO12 Ceramics Through Glass Addition
  121. Low-loss Ca5−xSrxA2TiO12[A=Nb,Ta] ceramics: Microwave dielectric properties and vibrational spectroscopic analysis
  122. Effect of Dopants on Microwave Dielectric Properties of Ba(Zn 1/3 Ta 2/3 )O 3 Ceramics
  123. Effect of Nonstoichiometry on the Structure and Microwave Dielectric Properties of Ba(Mg0.33Ta0.67)O3
  124. Temperature-stable microwave dielectric ceramics in the Ca5A2Ti1-xZrxO12 (A = Nb, Ta) system
  125. Effect of Doping on the Dielectric Properties of Cerium Oxide in the Microwave and Far‐Infrared Frequency Range
  126. Microwave Dielectric Properties of RE1−xRE′xTiNbO6 [RE = Pr, Nd, Sm; RE′= Gd, Dy, Y] Ceramics
  127. Microwave dielectric properties of MO–La2O3–TiO2 (M = Ca, Sr, Ba) ceramics
  128. Microwave dielectric properties of RETiTaO6 (RE = La, Ce, Pr, Nd, Sm, Eu, Gd, Tb, Dy, Ho, Y, Er, Yb, Al, and In) ceramics
  129. Synthesis, Characterization and Properties of Ca 5 A 2 TiO 12 (A=Nb, Ta) Ceramic Dielectric Materials for Applications in Microwave Telecommunication Systems
  130. Preparation, Characterization, and Microwave Properties of RETiNbO6 (RE = Ce, Pr, Nd, Sm, Eu, Gd, Tb, Dy, Y, and Yb) Dielectric Ceramics
  131. Elastic and Dielectric Properties of B a 2- x S r x T i 9 O 20 Ceramics
  132. Random, Non-Random and Periodic Faulting in Crystals
  133. Random, non-random and periodic faulting in crystalsby M. T. Sebastian and P. Krishna
  134. Random, non-random and periodic faulting in crystals by M. Sebastian and P. Krishna
  135. Random, non-random and periodic faulting in crystalsby M. Sebastian and P. Krishna
  136. Model for Suppression of Dislocation Etch Pits in Vacuum-Swept Quartz Crystals
  137. Diffraction effects from h.c.p. crystals with random growth faults undergoing transformation to the f.c.c. phase by the deformation mechanism
  138. An X-ray diffraction study of faulting in single crystals of cubic ZnS grown from the vapour phase