Symposium CJ
Advances in Electroceramics
Programme Chair:
José Arana VARELA, Universidad Estadual Paulista, Brazil
Members:
Sheikh AKBAR, Ohio State University, USA
Neil ALFORD Imperial College London, UK
Akira ANDO, Murata Manufacturing Co. Ltd., Japan
David P. CANN, Oregon State University, USA
Xiang Ming CHEN, Zhejiang University, China
Mohammed ES-SOUNI, HAW Kiel-University of Applied Sciences, Germany
Ludwig GAUCKLER, ETH Zurich, Switzerland
Spartak S. GEVORGIAN, Chalmers University, Sweden
Adrian GOLDSTEIN, Israel Ceramic and Silicate Institute, Israel
Daniel GUYOMAR, LGEF-INSA Lyon, France
Hajime HANEDA, NIMS, Japan
Jacob L. JONES, University of Florida, USA
Sergei V. KALININ, Oak Ridge National Laboratory, USA
Stanislav KAMBA, Institute of Physics, Academy of Sciences, Czech Republic
Andrei KHOLKIN, University of Aveiro, Portugal
Eung Soo KIM, Kyonggi University, Korea
Ling Bing KONG, Nanyang Technological University, Singapore
Jong-Heun LEE, Korea University, Korea
Yongxiang LI, Shanghai Institute of Ceramics, China
Raffaella LO NIGRO, IMM-CNR, Italy
Ichiro MATSUBARA, AIST, Japan
Liliana MITOSERIU, University "Alexandru Ioan Cuza", Romania
Reginaldo MUCCILLO, Energy and Nuclear Research Institute, Brazil
Truls Eivind NORBY, University of Oslo, Norway
Toshio OGAWA, Shizuoka Inst.of Science & Technology, Japan
Hitoshi OHSATO, Nagoya Institute of Technology, Japan
Lorena PARDO, ICMM, CSIC, Spain
Ramamoorthy RAMESH, University of California, Berkeley, USA
Guus RIJNDERS, University of Twente, Netherlands
Edward M. SABOLSKY, West Virginia University, USA
Mailadil T. SEBASTIAN, NIIST - CSIR, India
Nava SETTER, EPFL, Switzerland
Derek C. SINCLAIR, University of Sheffield, UK
Andris STERNBERG, University of Latvia, Latvia
Danilo SUVOROV, Jozef Stefan Institute, Slovenia
Steven C. TIDROW, University of Texas-Pan American, USA
Isabel VAN DRIESSCHE, Ghent University, Belgium
Chan-Ho YANG, KAIST, Korea
Zuo-Guang YE, Simon Fraser University, Canada
Ki Hyun YOON, Yonsei University, Korea
Weiguang ZHU, Nanyang Technological University, Singapore
José Arana VARELA, Universidad Estadual Paulista, Brazil
Members:
Sheikh AKBAR, Ohio State University, USA
Neil ALFORD Imperial College London, UK
Akira ANDO, Murata Manufacturing Co. Ltd., Japan
David P. CANN, Oregon State University, USA
Xiang Ming CHEN, Zhejiang University, China
Mohammed ES-SOUNI, HAW Kiel-University of Applied Sciences, Germany
Ludwig GAUCKLER, ETH Zurich, Switzerland
Spartak S. GEVORGIAN, Chalmers University, Sweden
Adrian GOLDSTEIN, Israel Ceramic and Silicate Institute, Israel
Daniel GUYOMAR, LGEF-INSA Lyon, France
Hajime HANEDA, NIMS, Japan
Jacob L. JONES, University of Florida, USA
Sergei V. KALININ, Oak Ridge National Laboratory, USA
Stanislav KAMBA, Institute of Physics, Academy of Sciences, Czech Republic
Andrei KHOLKIN, University of Aveiro, Portugal
Eung Soo KIM, Kyonggi University, Korea
Ling Bing KONG, Nanyang Technological University, Singapore
Jong-Heun LEE, Korea University, Korea
Yongxiang LI, Shanghai Institute of Ceramics, China
Raffaella LO NIGRO, IMM-CNR, Italy
Ichiro MATSUBARA, AIST, Japan
Liliana MITOSERIU, University "Alexandru Ioan Cuza", Romania
Reginaldo MUCCILLO, Energy and Nuclear Research Institute, Brazil
Truls Eivind NORBY, University of Oslo, Norway
Toshio OGAWA, Shizuoka Inst.of Science & Technology, Japan
Hitoshi OHSATO, Nagoya Institute of Technology, Japan
Lorena PARDO, ICMM, CSIC, Spain
Ramamoorthy RAMESH, University of California, Berkeley, USA
Guus RIJNDERS, University of Twente, Netherlands
Edward M. SABOLSKY, West Virginia University, USA
Mailadil T. SEBASTIAN, NIIST - CSIR, India
Nava SETTER, EPFL, Switzerland
Derek C. SINCLAIR, University of Sheffield, UK
Andris STERNBERG, University of Latvia, Latvia
Danilo SUVOROV, Jozef Stefan Institute, Slovenia
Steven C. TIDROW, University of Texas-Pan American, USA
Isabel VAN DRIESSCHE, Ghent University, Belgium
Chan-Ho YANG, KAIST, Korea
Zuo-Guang YE, Simon Fraser University, Canada
Ki Hyun YOON, Yonsei University, Korea
Weiguang ZHU, Nanyang Technological University, Singapore
Shlomo BERGER, Technion-Israel Institute of Technology, Israel
Gustau CATALAN, ICMAB Barcelona, Spain
Xiang Ming CHEN, Zhejiang University, China
Venkatraman GOPALAN, Penn State University, USA
Noriya IZU, AIST, Japan
Heli JANTUNEN, University of Oulu, Finland
Moon-Ho JO, Yonsei University, Korea
Jong-Heun LEE, Korea University, Korea
Kiyoshi KANAMURA / Hirokazu MUNAKATA, Tokyo Metropolitan University, Japan
Woong KIM, Korea University, Korea
Yeong-Cheol KIM, Korea University of Technology and Education, Korea
Jong-Heun LEE, Korea University, Korea
Sean LI, The University of New South Wales, Australia
Janis LOCS, Riga Technical University, Latvia
Mario MAGLIONE, ICMCB-CNRS, University Bordeaux, France
Graziella MALANDRINO, University of Catania, Italy
Eliana N.S. MUCCILLO, Energy and Nuclear Research Institute, Brazil
Masanobu NAKAYAMA / Randy JALEM, Nagoya Institute of Technology, Japan
Toshio OGAWA, Shizuoka Inst.of Science & Technology, Japan
Nikolay PERTSEV, A.F. Ioffe Physico-Technical Inst.of RAS, Russia
Stephen SKINNER, Imperial College London, UK
Danilo SUVOROV, Jozef Stefan Institute, Slovenia
Satoshi WADA, University of Yamanashi, Japan
Junling WANG, Nanyang Technological University, Singapore
Chan-Ho YANG, KAIST, Korea
Kui YAO, Institute of Materials Research & Engineering, Singapore
Gustau CATALAN, ICMAB Barcelona, Spain
Xiang Ming CHEN, Zhejiang University, China
Venkatraman GOPALAN, Penn State University, USA
Noriya IZU, AIST, Japan
Heli JANTUNEN, University of Oulu, Finland
Moon-Ho JO, Yonsei University, Korea
Jong-Heun LEE, Korea University, Korea
Kiyoshi KANAMURA / Hirokazu MUNAKATA, Tokyo Metropolitan University, Japan
Woong KIM, Korea University, Korea
Yeong-Cheol KIM, Korea University of Technology and Education, Korea
Jong-Heun LEE, Korea University, Korea
Sean LI, The University of New South Wales, Australia
Janis LOCS, Riga Technical University, Latvia
Mario MAGLIONE, ICMCB-CNRS, University Bordeaux, France
Graziella MALANDRINO, University of Catania, Italy
Eliana N.S. MUCCILLO, Energy and Nuclear Research Institute, Brazil
Masanobu NAKAYAMA / Randy JALEM, Nagoya Institute of Technology, Japan
Toshio OGAWA, Shizuoka Inst.of Science & Technology, Japan
Nikolay PERTSEV, A.F. Ioffe Physico-Technical Inst.of RAS, Russia
Stephen SKINNER, Imperial College London, UK
Danilo SUVOROV, Jozef Stefan Institute, Slovenia
Satoshi WADA, University of Yamanashi, Japan
Junling WANG, Nanyang Technological University, Singapore
Chan-Ho YANG, KAIST, Korea
Kui YAO, Institute of Materials Research & Engineering, Singapore
Improvements in basic knowledge and practical exploitation of their unique properties, has established electrical ceramics as a central and fast developing sector in materials research, resulting in a significant impact on several areas of modern technologies. The increasing demand for even more refined or novel properties hardly to be competitively met by other materials is fuelling the interest for improved or new processing routes and deeper understanding of the fundamental materials science to meet requirements coming from a variety of advanced civilian and defence applications.
Materials with unusually high dielectric constant, with low loss and low temperature resonance coefficient at very high frequencies, lead-free piezoelectrics, multifunctional materials such as multiferroic heterostructures are but some examples of the ongoing developments in the area which massively makes use of the opportunities offered by nanoscience and nanotechnology, and by computational modelling and new theory.
Materials with unusually high dielectric constant, with low loss and low temperature resonance coefficient at very high frequencies, lead-free piezoelectrics, multifunctional materials such as multiferroic heterostructures are but some examples of the ongoing developments in the area which massively makes use of the opportunities offered by nanoscience and nanotechnology, and by computational modelling and new theory.
Major focus will be on:
- Development of new and more efficient processes, better characterisation tools of bulk, crystalline, glassy and amorphous materials, thin films, multilayers, superlattices, nanomaterials, nanostructures and hybrid materials; advances in thin-film and related micro/ nano-fabrication techniques and “bottom-up” approaches that offer the potential for high-density integration of nanoscale devices
- Fundamental mechanisms, novel (multi)functional characteristics and behaviour of materials such as electronic structure, quantum effects, phase transitions, transport phenomena, defects, diffusion, domain structure and switching, grain boundary controlled mechanisms, nanosize effects, surfaces and interfaces, dielectric, piezoelectric, magnetic and optical properties, ageing and fatigue, reliability, fractals, modeling and simulation, etc.
- New developments in devices including high energy density capacitors, tunable dielectrics for microwave applications, piezoelectric composites, sensors and actuators, MEMS/NEMS devices, and related integration technologies.
Session Topics
CJ-1 Dielectrics and microwave materials
- Fundamentals, synthesis, processing, characterisation
- Capacitor dielectrics
- Mott insulators
- Microwave and millimeter wave dielectrics
- Tunable dielectrics
- LTCC
- New thin film materials and integration technologies
- Packaging and interconnect issues
CJ-2 Ferroelectrics, piezoelectrics, pyroelectrics
- Synthesis and processing: polycrystalline ceramics and composites, thin/thick films, single crystals, novel materials
- Lead-free ferroelectrics and piezoelectrics
- Relaxor ferroelectrics
- Theory and modelling
- Characterisation
- Electromechanical behaviour and piezoelectric applications
- Thin film devices
- Capacitor applications, MLCC
- Sensor applications
- Novel applications
CJ-3 Multiferroics *
- Theory and modelling of magneto-electric phenomena
- Advances in materials synthesis and processing
- Magneto-electric characterisation
- Dynamics of multiferroics
- New effects
- Devices and applications
- Amorphous and crystalline semiconducting oxides
- Non-oxide semiconductors
- Synthesis, processing,characterisation
- Defect chemistry, doping mechanisms, carriers origin and dynamics
- SnO2-, ZnO-,TiO2-based varistors and sensor applications
- NTC/PTC thermistors
- Electrochemical applications (sensors, catalysis)
- Other ongoing applications
- Novel materials and applications
CJ-5 Fast ion-conducting ceramics
- Novel synthesis and materials
- Ionic and mixed ion-electron conduction mechanisms
- Electrochemical characterisation, thermochemical stability
- Mechanical and thermal properties
- Energy conversion and storage applications
- Sensor applications
- Other electrochemical applications for, e.g. gas separation processes at high temperature, photocatalysis, electrocatalysis, etc.