All Stories

  1. Hafnium silicate: a new microwave dielectric ceramic with low thermal expansivity

    Article • Dalton Transactions, January 2015, Royal Society of Chemistry

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  2. Self assembled polyaniline nanofibers with enhanced electromagnetic shielding properties

    Article • RSC Advances, January 2015, Royal Society of Chemistry

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  3. Dielectric, thermal and mechanical properties of zirconium silicate reinforced high density polyethylene composites for antenna applications

    Article • Physical Chemistry Chemical Physics, January 2015, Royal Society of Chemistry

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  4. Room temperature curable zirconium silicate dielectric ink for electronic applications

    Article • Journal of Materials Chemistry C, January 2015, Royal Society of Chemistry

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  5. Structural, dielectric and thermal properties of Ca9R2W4O24 [R–Nd, Sm] ceramics

    Article • Materials Chemistry and Physics, November 2014, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  6. Room temperature curable silica ink

    Article • RSC Advances, September 2014, Royal Society of Chemistry

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  7. Microwave dielectric and thermal properties of mixed rare earth ortho phosphate [REmixPO4]

    Article • Ceramics International, September 2014, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  8. Electromagnetic interference shielding properties of butyl rubber-single walled carbon nanotube composites

    Article • Composites Science and Technology, September 2014, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  9. Development of butyl rubber–rutile composites for flexible microwave substrate applications

    Article • Ceramics International, June 2014, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  10. HDPE Matrix Composites Filled With Ca 4 La 6 (SiO 4 ) 4 (PO 4 ) 2 O 2 for Microwave Substrate Applications

    Article • Journal of Electronic Packaging, May 2014, ASME International

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  11. The effect of Ga3+ addition on the sinterability and microwave dielectric properties of RE3Al5O12 (Tb3+, Y3+, Er3+ and Yb3+) garnet ceramics

    Article • Ceramics International, April 2014, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  12. Material Characterization and Microwave Substrate Applications of Alumina‐Filled Butyl Rubber Composites

    Article • International Journal of Applied Ceramic Technology, October 2013, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  13. Effect of Ca2+ Substitution on the Structure, Microstructure, and Microwave Dielectric Properties of Sr2Al2SiO7 Ceramic

    Article • Journal of the American Ceramic Society, October 2013, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  14. Butyl rubber–Ba0.7Sr0.3TiO3 composites for flexible microwave electronic applications

    Article • Ceramics International, April 2013, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  15. Effect of silver incorporation into PVDF-barium titanate composites for EMI shielding applications

    Article • Materials Research Bulletin, April 2013, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  16. Effect of glass fluxing on densification and microwave dielectric properties of LiInSiO4 ceramic

    Article • Journal of Alloys and Compounds, March 2013, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  17. Crystal Structure and Microwave Dielectric Properties of LiRE9(SiO4)6O2 Ceramics (RE = La,Pr<...

    Article • Journal of the American Ceramic Society, March 2013, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  18. Facile Synthesis of “Quench‐Free Glass” and Ceramic‐Glass Composite for LTCC Applications

    Article • Journal of the American Ceramic Society, February 2013, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  19. Electromagnetic interference shielding nature of PVDF-carbonyl iron composites

    Article • Materials Letters, January 2013, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  20. Casting and characterization of LiMgPO4 glass free LTCC tape for microwave applications

    Article • Journal of the European Ceramic Society, January 2013, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  21. Effect of isovalent substitutions on the microwave dielectric properties of Ca4La6(SiO4)4(PO4)2O2 apatite

    Article • Journal of Alloys and Compounds, January 2013, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  22. A NOVEL DIELECTRIC CERAMIC FOR MICROWAVE PASSIVE CIRCUITS

    Article • International Journal of Modern Physics Conference Series, January 2013, World Scientific Pub Co Pte Lt

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  23. SINTERING AND MICROWAVE DIELECTRIC PROPERTIES OF AlPO 4 -MgF 2 CERAMIC COMPOSITE

    Article • International Journal of Modern Physics Conference Series, January 2013, World Scientific Pub Co Pte Lt

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  24. Effect of glass fillers in Cu2ZnNb2O8 ceramics for advanced microwave applications

    Article • Materials Chemistry and Physics, January 2013, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  25. Effect of Zn2+ substitution on the microwave dielectric properties of LiMgPO4 and the development of a new temperature stable glass free LTCC

    Article • Journal of the European Ceramic Society, August 2012, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  26. Improved Dielectric and Mechanical Properties of Polystyrene–Hybrid Silica Sphere Composite Induced through Bifunctionalization at the Interface

    Article • Langmuir, June 2012, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  27. Temperature compensated Sr2Al2SiO7 ceramic for microwave applications

    Article • Materials Chemistry and Physics, March 2012, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  28. Buffer Assisted Epitaxial Growth of Bi1.5Zn1Nb1.5O7 Thin Films by Pulsed Laser Deposition for Optoelectronic Applications

    Article • MRS Proceedings, January 2012, Springer Science + Business Media

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  29. Microwave dielectric properties of flexible butyl rubber–strontium cerium titanate composites

    Article • Journal of Applied Polymer Science, November 2011, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  30. Composite Electroceramics

    Article • September 2011, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  31. Mechanically Flexible Butyl Rubber-SrTiO3 Composite Dielectrics for Microwave Applications

    Article • International Journal of Applied Ceramic Technology, September 2011, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  32. Microwave Dielectric Properties of Ca2+xLa8−x(SiO4)6−x(PO4)xO2 Solid Solution

    Article • Journal of the American Ceramic Society, May 2011, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  33. Crystal Structure of Apatite Type Rare-Earth Silicate (Sr2RE2)(RE6)(SiO4)6O2 (RE=La, Pr, Tb, Tm, and Y)

    Article • Journal of the American Ceramic Society, March 2011, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  34. Microwave dielectric properties of alkaline earth orthosilicates M2SiO4 (M=Ba, Sr, Ca)

    Article • Materials Letters, March 2011, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  35. ChemInform Abstract: Vibrational Spectroscopy of Ca2LnTaO6 (Ln: Lanthanides, Y, and In) and Ca2InNbO6 Double Perovskites.

    Article • ChemInform, February 2011, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  36. Low-Temperature Sintering and Microwave Dielectric Properties of Li2ATi3O8 (A=Mg, Zn) Ceramics

    Article • International Journal of Applied Ceramic Technology, December 2010, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  37. Vibrational Spectroscopy of Ca2LnTaO6 (Ln = lanthanides, Y, and In) and Ca2InNbO6 Double Perovskites

    Article • Chemistry of Materials, December 2010, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  38. Temperature‐Compensated LiMgPO4: A New Glass‐Free Low‐Temperature Cofired Ceramic

    Article • Journal of the American Ceramic Society, November 2010, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  39. Microwave dielectric properties of novel temperature stable high Q Li2Mg1−Zn Ti3O8 and Li2A1−Ca Ti3O8 (A = Mg, Zn) ceramics

    Article • Journal of the European Ceramic Society, September 2010, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  40. Synthesis and Microwave Dielectric Properties of Novel Temperature Stable High Q, Li2ATi3O8 (A=Mg, Zn) Ceramics

    Article • Journal of the American Ceramic Society, August 2010, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  41. Crystal Structure and Microwave Dielectric Properties of LaLuO3 Ceramics

    Article • Journal of the American Ceramic Society, July 2010, Wiley

    Professor Mailadil Thomas Sebastian, Dr Nik Reeves-McLaren, Prof. Mailadil T SEBASTIAN

  42. Low temperature sintering and microwave dielectric properties of Ce2(WO4)3 ceramics

    Article • Ceramics International, July 2010, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  43. Polymer–Ceramic Composites of 0–3 Connectivity for Circuits in Electronics: A Review

    Article • International Journal of Applied Ceramic Technology, July 2010, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  44. Dielectric, Mechanical, and Thermal Properties of Low‐Permittivity Polymer–Ceramic Composites for Microelectronic Applications

    Article • International Journal of Applied Ceramic Technology, July 2010, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  45. Microwave Dielectric Properties of Co2La4Ti3Si4O22 Ceramics

    Article • Journal of the American Ceramic Society, June 2010, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  46. Tape Casting and Dielectric Properties of Sr2ZnSi2O7-Based Ceramic-Glass Composite for Low-Temperature Co-fired Ceramics Applications

    Article • International Journal of Applied Ceramic Technology, April 2010, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  47. Synthesis, Characterization, and Microwave Dielectric Properties of Sr2−xLa2Mg1+xW2O12 (x=0, 1) Ceramics

    Article • Journal of the American Ceramic Society, April 2010, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  48. Effect of Glass Addition on the Microwave Dielectric Properties of CaMgSi2O6 Ceramics

    Article • International Journal of Applied Ceramic Technology, April 2010, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  49. Piezoelectric and ferroelectric properties of new Pb9Ce2Ti12O36 and lead-free Ba2NdTi2Nb3O15 ceramics

    Article • Journal of Electroceramics, March 2010, Springer Science + Business Media

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  50. Correction to Crystal Structure of Sr0.4Ce0.4TiO3 Ceramics

    Article • Chemistry of Materials, February 2010, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  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

    Article • Journal of Alloys and Compounds, February 2010, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  52. Microwave Dielectric Properties of (Sr1−xAx)2(Zn1−xBx)Si2O7 Ceramics (A=Ca, Ba and B=Co, Mg, Mn, Ni)

    Article • Journal of the American Ceramic Society, December 2009, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  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

    Article • Polymer Engineering & Science, November 2009, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  54. Microwave Dielectric Properties of SrRE4Si3O13 (RE=La, Pr, Nd, Sm, Eu, Gd, Tb, Dy, Er, Tm, Yb, and Y) Ceramics

    Article • Journal of the American Ceramic Society, November 2009, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  55. Vibrational spectroscopic study of Sr2ZnTeO6 double perovskites

    Article • Journal of Raman Spectroscopy, November 2009, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  56. CeO2–La0.5Sr0.5CoO3−δcomposites for giant permittivity applications

    Article • Journal of Physics D Applied Physics, October 2009, Institute of Physics Publishing

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  57. Crystal Structure of Sr0.4Ce0.4TiO3 Ceramics

    Article • Chemistry of Materials, September 2009, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  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

    Article • International Journal of Applied Ceramic Technology, September 2009, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  59. Novel Low Loss, Low Permittivity Glass-Ceramic Composites for LTCC Applications

    Article • International Journal of Applied Ceramic Technology, August 2009, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  60. Enhanced permittivity by the adhesion of conducting and low‐loss insulating ceramics in polystyrene

    Article • Journal of Applied Polymer Science, June 2009, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  61. Tape Casting and Dielectric Properties of Zn2Te3O8‐Based Ceramics with an Ultra‐Low Sintering Temperature

    Article • International Journal of Applied Ceramic Technology, June 2009, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  62. Effective Size of Vacancies in the Sr 1‐3 x /2 Ce x /TiO 3 ...

    Article • June 2009, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  63. Low‐Temperature Sintering and Microwave Dielectric Properties of Li2MgSiO4 Ceramics

    Article • Journal of the American Ceramic Society, June 2009, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  64. Three-phase polymer–ceramic–metal composite for embedded capacitor applications

    Article • Composites Science and Technology, June 2009, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  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

    Article • Journal of Alloys and Compounds, April 2009, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  66. Ferroelectric and Incipient Ferroelectric Properties of a Novel Sr9−xPbxCe2Ti12O36(x = 0−9) Ceramic System

    Article • Chemistry of Materials, March 2009, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Dr. Jan Petzelt

  67. Microwave and infrared dielectric properties of Sr1−3x/2CexTiO3(x= 0.154–0.400) incipient ferroelectrics at cryogenic temperatures

    Article • Journal of Physics D Applied Physics, March 2009, Institute of Physics Publishing

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  68. Microwave Dielectric Properties and Low Temperature Sintering of Sm2Si2O7 Ceramic for Substrate Applications

    Article • International Journal of Applied Ceramic Technology, March 2009, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  69. Ferroelectric and Incipient Ferroelectric Properties of a Novel Sr9−xPbxCe2Ti2O36(x = 0−9) Ceramic System

    Article • Chemistry of Materials, February 2009, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Dr. Jan Petzelt

  70. Percolation phenomenon in barium samarium titanate–silver composite

    Article • Journal of Physics and Chemistry of Solids, January 2009, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  71. Microwave Dielectric Properties and Low‐Temperature Sintering of Cerium Oxide for LTCC Applications

    Article • Journal of the American Ceramic Society, January 2009, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  72. Microwave Dielectric Properties of ATe 3 O 8 (A = Sn, Zr) Ceramics

    Article • Japanese Journal of Applied Physics, October 2008, Japan Society of Applied Physics

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  73. Effect of sintering temperature on the percolation threshold and the dielectric properties Ca[(Li1/3Nb2/3)1–x Tix]O3–δ – Ag composite

    Article • Composites Science and Technology, September 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  74. Raman Scattering and Infrared Spectroscopy of Chemically Substituted Sr2LnTaO6(Ln = Lanthanides, Y, and In) Double Perovskites

    Article • Chemistry of Materials, July 2008, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  75. Low loss, temperature stable dielectric ceramics in ZnNb2O6–Zn3Nb2O8 system for LTCC applications

    Article • Journal of Materials Science Materials in Electronics, July 2008, Springer Science + Business Media

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  76. ChemInform Abstract: Structure of Compounds in the Sr1‐3x/2CexTiO3 Homologous Series.

    Article • ChemInform, July 2008, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  77. Low Dielectric Loss PTFE/CeO2 Ceramic Composites for Microwave Substrate Applications

    Article • International Journal of Applied Ceramic Technology, July 2008, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  78. Vibrational Studies and Microwave Dielectric Properties of A-Site-Substituted Tellurium-Based Double Perovskites

    Article • Chemistry of Materials, June 2008, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  79. Effect of Filler Content on the Dielectric Properties of PTFE/ZnAl2O4–TiO2 Composites

    Article • Journal of the American Ceramic Society, May 2008, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  80. Structure of Compounds in the Sr1–3x/2CexTiO3 Homologous Series

    Article • Chemistry of Materials, April 2008, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  81. Effect of B2O3-Bi2O3-SiO2-ZnO glass on the sintering and microwave dielectric properties of 0.83ZnAl2O4-0.17TiO2

    Article • Materials Research Bulletin, April 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  82. Microwave Dielectric Properties and Low‐Temperature Sintering of (1−x)CeO2−xBaTi4O9 Ceramics

    Article • International Journal of Applied Ceramic Technology, January 2008, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  83. MICROWAVE DIELECTRIC MATERIALS IN THE BaO–TiO2 SYSTEM

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  84. MEASUREMENT OF MICROWAVE DIELECTRIC PROPERTIES AND FACTORS AFFECTING THEM

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  85. APPENDIX 2

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian

  86. INTRODUCTION

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  87. ABO3 TYPE PEROVSKITES

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  88. CATION-DEFICIENT PEROVSKITES

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  89. LOW TEMPERATURE COFIRED CERAMICS

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  90. CONCLUSION

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  91. APPENDIX 1

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian

  92. INDEX

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian

  93. Color Plates

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian

  94. ZIRCONIUM TIN TITANATE

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  95. FOREWORD

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian

  96. ACKNOWLEDGMENT

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian

  97. ALUMINA, TITANIA, CERIA, SILICATE, TUNGSTATE AND OTHER MATERIALS

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  98. A(B′1/3B″2/3)O3 COMPLEX PEROVSKITES

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  99. TAILORING THE PROPERTIES OF LOW-LOSS DIELECTRICS

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  100. A(B′1/2B″1/2)O3 [A = A2+ OR A3+; B′ = B2+,B3+; B″ = B4+,B5+,B6+] COMPLEX PEROVSKITES

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  101. Ca(Ca1/4B2/4Ti1/4)O3 (B = Nb, Ta) COMPLEX PEROVSKITES

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  102. PSEUDO-TUNGSTEN BRONZE-TYPE DIELECTRIC MATERIALS

    Article • January 2008, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  103. Optical Phonon Modes and Dielectric Behavior of Sr1–3x/2CexTiO3 Microwave Ceramics

    Article • Chemistry of Materials, November 2007, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  104. Low Dielectric Loss Polytetrafluoroethylene/TeO2 Polymer Ceramic Composites

    Article • Journal of the American Ceramic Society, September 2007, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  105. Giant Permittivity of a Bismuth Zinc Niobate–Silver Composite

    Article • Journal of the American Ceramic Society, September 2007, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  106. Tailoring the Microwave Dielectric Properties of MgNb2O6 and Mg4Nb2O9 Ceramics

    Article • International Journal of Applied Ceramic Technology, July 2007, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  107. Structure and Microwave Dielectric Properties of Sr2+nCe2Ti5+nO15+3n(n≤ 10) Homologous Series

    Article • Chemistry of Materials, June 2007, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  108. Microwave Dielectric Properties of La6Mg4A2W2O24[A=Ta and Nb] Ceramics

    Article • Journal of the American Ceramic Society, June 2007, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  109. Microwave Dielectric Properties of A6B5O18‐Type Perovskites

    Article • Journal of the American Ceramic Society, January 2007, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  110. Microwave dielectric properties of CeO2–0.5AO–0.5TiO2 (A=Ca, Mg, Zn, Mn, Co, Ni, W) ceramics

    Article • Journal of the European Ceramic Society, January 2007, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  111. Doped Ca(Ca1/4A2/4Ti1/4)O3 (A=Nb, Ta) Dielectrics for Microwave Telecommunication Applications

    Article • International Journal of Applied Ceramic Technology, January 2007, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  112. Raman-spectroscopic investigations on the crystal structure and phonon modes of Ba(RE1/2Ta1/2)O3 microwave ceramics

    Article • Journal of the European Ceramic Society, January 2007, Elsevier

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  113. Microwave Dielectric Properties of La5CrTi3O15 and La4MCrTi3O15 (M=Pr, Nd, and Sm) Ceramics

    Article • International Journal of Applied Ceramic Technology, May 2006, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  114. Synthesis, Characterization, and Microwave Dielectric Properties of ATiO3 (A=Co, Mn, Ni) Ceramics

    Article • Journal of the American Ceramic Society, April 2006, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  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.

    Article • ChemInform, March 2006, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  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

    Article • Journal of Applied Physics, December 2005, American Institute of Physics

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  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

    Article • Chemistry of Materials, December 2005, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  118. The effect of dopants on the microwave dielectric properties of Ba(Mg0.33Ta0.67)O3 ceramics

    Article • Journal of Applied Physics, November 2005, American Institute of Physics

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  119. Vibrational spectroscopy and microwave dielectric properties of Ca5−xBaxNb2TiO12 and Ca5−xBaxTa2TiO12 ceramics

    Article • Journal of Applied Physics, October 2005, American Institute of Physics

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  120. Tailoring the Microwave Dielectric Properties of Ca5Ta2TiO12 Ceramics Through Glass Addition

    Article • Journal of the American Ceramic Society, August 2005, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  121. Low-loss Ca5−xSrxA2TiO12[A=Nb,Ta] ceramics: Microwave dielectric properties and vibrational spectroscopic analysis

    Article • Journal of Applied Physics, May 2005, American Institute of Physics

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  122. Effect of Dopants on Microwave Dielectric Properties of Ba(Zn 1/3 Ta 2/3 )O 3 Ceramics

    Article • Japanese Journal of Applied Physics, January 2005, Japan Society of Applied Physics

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  123. Effect of Nonstoichiometry on the Structure and Microwave Dielectric Properties of Ba(Mg0.33Ta0.67)O3

    Article • Chemistry of Materials, December 2004, American Chemical Society (ACS)

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  124. Temperature-stable microwave dielectric ceramics in the Ca5A2Ti1-xZrxO12 (A = Nb, Ta) system

    Article • Journal of Materials Research, October 2004, Springer Science + Business Media

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  125. Effect of Doping on the Dielectric Properties of Cerium Oxide in the Microwave and Far‐Infrared Frequency Range

    Article • Journal of the American Ceramic Society, July 2004, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Dr Robert C Pullar, Dr. Jan Petzelt, Professor Mohanan Pezholil

  126. Microwave Dielectric Properties of RE1−xRE′xTiNbO6 [RE = Pr, Nd, Sm; RE′= Gd, Dy, Y] Ceramics

    Article • Journal of the American Ceramic Society, October 2003, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  127. Microwave dielectric properties of MO–La2O3–TiO2 (M = Ca, Sr, Ba) ceramics

    Article • Journal of Materials Research, December 2002, Springer Science + Business Media

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  128. Microwave dielectric properties of RETiTaO6 (RE = La, Ce, Pr, Nd, Sm, Eu, Gd, Tb, Dy, Ho, Y, Er, Yb, Al, and In) ceramics

    Article • Journal of Materials Research, October 2002, Springer Science + Business Media

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  129. Synthesis, Characterization and Properties of Ca 5 A 2 TiO 12 (A=Nb, Ta) Ceramic Dielectric Materials for Applications in Microwave Telecommunication Systems

    Article • Japanese Journal of Applied Physics, June 2002, Japan Society of Applied Physics

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  130. Preparation, Characterization, and Microwave Properties of RETiNbO6 (RE = Ce, Pr, Nd, Sm, Eu, Gd, Tb, Dy, Y, and Yb) Dielectric Ceramics

    Article • Journal of the American Ceramic Society, July 2001, Wiley

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN, Professor Mohanan Pezholil

  131. Elastic and Dielectric Properties of B a 2- x S r x T i 9 O 20 Ceramics

    Article • Japanese Journal of Applied Physics, February 1996, Japan Society of Applied Physics

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  132. Random, Non-Random and Periodic Faulting in Crystals

    Article • Physics Today, August 1995, American Institute of Physics

    Professor Mailadil Thomas Sebastian

  133. Random, non-random and periodic faulting in crystalsby M. T. Sebastian and P. Krishna

    Article • Journal of Applied Crystallography, February 1995, International Union of Crystallography

    Professor Mailadil Thomas Sebastian

  134. Random, non-random and periodic faulting in crystals by M. Sebastian and P. Krishna

    Article • Acta Crystallographica Section B Structural Science, December 1994, International Union of Crystallography

    Professor Mailadil Thomas Sebastian

  135. Random, non-random and periodic faulting in crystalsby M. Sebastian and P. Krishna

    Article • Acta Crystallographica Section A Foundations of Crystallography, November 1994, International Union of Crystallography

    Professor Mailadil Thomas Sebastian

  136. Model for Suppression of Dislocation Etch Pits in Vacuum-Swept Quartz Crystals

    Article • Japanese Journal of Applied Physics, January 1994, Japan Society of Applied Physics

    Professor Mailadil Thomas Sebastian, Prof. Mailadil T SEBASTIAN

  137. Diffraction effects from h.c.p. crystals with random growth faults undergoing transformation to the f.c.c. phase by the deformation mechanism

    Article • phys stat sol (a), June 1987, Wiley

    Professor Mailadil Thomas Sebastian

  138. An X-ray diffraction study of faulting in single crystals of cubic ZnS grown from the vapour phase

    Article • Philosophical Magazine A, December 1984, Taylor & Francis

    Professor Mailadil Thomas Sebastian