第十二届先进陶瓷国际会议
Invited Speakers
A.高温/超高温陶瓷及其复合材料
B.纳米层状三元碳化物/氮化物/硼化物及其2D材料
C.聚合物前驱体陶瓷
D.透明陶瓷与发光材料
E.能源与环保用先进多孔陶瓷
F.陶瓷薄膜与涂层
G.陶瓷基复合材料前沿
H.粉体工艺与烧结前沿
I.3D打印与增材制造进展
J.先进耐火材料与传统陶瓷
K.微波电介质陶瓷
L.储能用介电与铁电材料
M.无铅铁电压电陶瓷
N.面向太阳能电池/LED等应用的钙钛矿材料
O.面向可持续能源利用的热电材料与器件
P.铁电/多铁材料与器件
Q.敏感材料与器件
R.离子及混合传导陶瓷
Ceramic materials that are ionic conductors or exhibit simultaneous ionic and electronic conduction are regaining extensive attention worldwide in the recent years as it essentially defines some emerging technologies such as solid state batteries and solid sensors. The chemical functionality of Ionic and mixed conducting ceramics arises out of the defect equilibrium of these materials, and results in the ability to transport chemical species and actively participate in electrochemical reactions at their surface. These materials provide a promise for the future, for example, allowing the eliminating of flammable components in high energy storage batteries, harnessing of our natural hydrocarbon energy resources through highly efficient and non-polluting methods.

This symposium seeks to cover both the fundamentals and technological applications of Ionic and mixed conducting ceramics and their composites, thus linking theory, simulations, advanced characterization, functional properties and real-world applications. It will provide a forum for extensive discussion and exchange of information among researchers exploring solid state ionics in ceramic based materials in different contexts and diverse applications.  
 
Focused topics:
R01 Defects mechanisms and engineering in Ionic and mixed conducting ceramics
R02 Ionic transport and Mechanisms in Ionic and mixed conducting ceramics
R03 Electrochemical Interfaces in solid state ionic devices
R04 Nanoionics: mass and charge transport in the nanoscale
R05 Ceramics for Energy and Fuels Conversion- Fuel Cells, Electrolyzers, Membrane Reactors
R06 Solid state lithium batteries
R07 Ferroelectrics, Multiferroics, Magneto-Ionics
R08 Chemical and Solid State Sensors
R09 Application of Novel characterization methods for structure and chemical composition such as operando techniques in the study of Ionic and mixed conducting ceramics and their devices

Co-Organizers: 
Zhaoyin Wen (Shanghai Institute of Ceramics, Chinese Academy of Science)
Na Ni (Shanghai Jiaotong University)
Minfang Han (Tsinghua University)
Yongsheng Hu (Institute of Physics
Chinese Academy of Science)
Yonghui Huang (Tongji University)
Qiang Zhang (Tsinghua University)
Quanhong Yang (Tianjin University)
Yan Yu (University of Science and Technology of China)
Yan Chen (South China University of Technology)


Point of Contact:
Na Ni (na.ni@sjtu.edu.cn)
Zhaoyin Wen (zywen@mail.sic.ac.cn)
  • Koji Amezawa
    Institute of Multidisciprinary Research for Advanced Materials, Tohoku University, Japan
    Operando analysis of soild-state ionics devices
  • Byoungwoo Kang
    POSTECH, Korea
    Developing oxide-based Li solid electrolytes for all solid-state battery
  • John Kilner
    Imperial College London, UK
    Diffusion in Mixed Ionic Electronic Conductors (MIECs)
  • Stephen Skinner
    Imperial College London, UK
    Mixed conducting Ca substituted BaNdInO4 as a protonic fuel cell candidate component
  • Naoaki Yabuuchi
    Yokohama National Univerisity, Japan
    High-capacity Nano-structured Positive Electrode Materials for Advanced Li-ion Batteries
  • Bilge Yildiz
    Department of Nuclear Science and Engineering/ Department of Materials Science and Engineering, Massachusetts Institute of Technology, USA
    To be determined
  • Da-Wei Wang
    University of New South Wales, Australia
    Electrode design for gel supercapacitors
  • Ming Chen
    Technical University of Denmark, Department of Energy Conversion and Storage, Denmark
    Nano-engineered solid oxide electrolysis cells for efficient and durable hydrogen production
  • Yong-Mook Kang
    Korea University, Korea
    Layered Structure Cathodes for LIB; Prejudice, Inverse Concept and New Possibility
  • LI Feng
    Institute of Metal Research, Chinese Academy of Science, China
    High performance polymer electrolyte
  • Yihan Ling
    Jiangsu Province Engineering Laboratory of High Efficient Energy Storage Technology and Equipments; China University of Mining and Technology, China
    Oxygen nonstoichiometry, defect equilibrium model and chemical expantion of the Ruddlesden-Popper oxides
  • Jiang Liu
    South China University of Technology, China
    Multiple effects of iron and nickel additives on the properties of proton conducting yttrium-doped barium cerate-zirconate electrolytes for high performance solid oxide fuel cells
  • Ainara Aguadero
    Imperial College London, UK
    Importance of interfaces for fast charging solid state batteries
  • Di Chen
    Tsinghua University, China
    Study the reaction mechanism on high temperature gas/solid electrochemical interfaces
  • WooChul Jung
    Korea Advanced Institute of Science and Technology, Korea
    Direct Electrochemical Oxidation of Methane at Ceria/Gas Interface
  • Qiyang Lu
    Westlake University, China
    Controlling Properties of Perovskite Oxides via Turning Oxygen Defect Chemistry
  • Fan Yang
    Shanghai Jiao Tong University, China
    Tuning the oxide-ion conductivity of solid electrolytes by    defect chemistry and microstructural design
  • Dipan Kundu
    University of New South Wales, Australia
    Alkali Metal Solid-State Batteries: Complex Interplay of Assembly/Stack Pressure and Interfacial Chemomechanical Issues
  • Stevin S. Pramana
    Newcastle University, UK
    Correlating Crystallography and Anisotropic Ion Transport in Functional Inorganic Oxides
  • Robert Usiskin
    Max Planck Institute for Solid State Research, Germany
    Cyclic voltammetry of battery electrodes:New theory and practical advice
  • Monica Burriel
    Laboratoire des Matériaux et du Génie Physique (LMGP, CNRS), France
    Oxygen transport kinetics in manganite thin films: in situ Raman spectroscopy and new tuning approaches
  • Xianwen MAO
    National University of Singapore, Singapore
    Single-particle operando functional imaging for materials design toward energy and environmental applications
  • Qianli Chen
    Shanghai Jiao Tong University, China
    Characterization of proton diffusion coefficient in ceramics using in-situ vibrational spectroscopy
  • Norby, Truls
    Department of Chemistry, University of Oslo, Norway
    Proton ceramics for direct ammonia fuel cells
  • Donglin HAN
    Soochow University, China
    Transport Properties of Proton Conducting Oxide-Type Electrolytes: Influence from Composition and Moisture
S.生物陶瓷前沿
T.陶瓷纳米尺度表征
U.陶瓷及复合材料的建模与设计
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