第十二届先进陶瓷国际会议
Invited Speakers
A.High and Ultrahigh Temperature Ceramics and Composites
B.Nano-laminated Ternary Carbides, Nitrides and Borides and Their 2D Counterparts MXenes/MBenes
C.Polymer-derived Ceramics
D.Transparent Ceramics and Luminescent Materials
E.Advanced Porous Ceramics For Energy and Environment Application
F.Ceramic Thin Films and Coatings
G.Advances in Ceramic Matrix Composites
H.Advances in Powder Processing and Sintering
I.Progress in 3D Printing and Additive Manufacturing
J.Advanced Refractories and Traditional Ceramics
K.Microwave Dielectric Ceramics
L.Dielectrics/Ferroelectrics for Energy Storage
Solid state capacitive energy storage using the high dielectric permittivity and low dielectric loss ceramics are gaining intensive research interests due to the potential applications in power electronics, high speed energy converting or buffering, back-up power sources, and hybrid electrical energy technologies. Ferroelectrics (FEs), antiferroelectrics (AFEs), relaxors, superparaelectrics (SPEs), and a combination/mixture of them have shown the desirable dielectric energy storage performance. Both bulk ceramics (including multilayer ceramic capacitors/MLCC) and ceramic film capacitors are being investigated for their energy storage capabilities and energy efficiencies. The key performance figure at the fundamental research level, is the polarization-electric field (P-E) hysteresis loop that can be directly measured from these materials. Reduction of the remnant polarization, delayed polarization saturation or AFE-FE transition, and the enhancement of the electrical breakdown strength, etc., are some of the representative approaches to obtain a slim, extended P-E loop for an optimal energy storage performance, and the stability of P-E hysteresis loop with electric field and time are important for applications. This symposium is focused on achieving such a goal via designing nano- and micro-structures or strain status, using novel doping or solid solution techniques, and inventing novel measurement technologies as well as solving engineering problems preventing commercialization of this technology.  

Focused topics:
L01:New Ferroelectric/Antiferroelectric Ceramics for Dielectric Energy Storage
L02:Film Capacitors for Energy Storage
L03:Composites, Structural design & characterization, New Concepts 

Keynote Speakers:
#1: Zhenxiang Cheng (Wollongong University, Australia)
#2: Jungho Ryu (Yeungnam University, Republic of Korea)
#3: Xiaohui Wang (Tsinghua University)
#4: Hong Wang(Southern University of Science and Technology)
#5: Yang Shen(Tsinghua University)

Invited Speakers:
Qingguo Chi et al. #6-#28 (See attached list)

Organizers: 
Guorong Li, Professor, Shanghai Institute of Ceramics, Chinese Academy of Sciences 
Jun Ouyang, Professor, Qilu University of Technology 
Jingfeng Li, Professor, Tsinghua University
Xiaohui Wang, Professor, Tsinghua University
Ruzhong Zuo, Professor, Anhui Polytechnic University 

Point of Contact:
Prof. Guorong Li, E-mail: grli@sunm.shcnc.ac.cn
Prof. Jun Ouyang, E-mail: ouyangjun@qlu.edu.cn

  • Zhenxiang Cheng
    University of Wollongong, Australia
    Ferroic Materials for Energy Conversion and Storage
  • Jungho Ryu
    Yeungnam University, Republic of Korea

    Ferroelectric Thick Films by Aerosol Deposi- Tion for Energy Storage Applica- Tions

  • Xiaohui Wang
    Tsinghua University, China
    Ultrahigh energy storage performance in relaxor ferroelectric multilayer ceramic capacitors by multiscale opti- mization strategy
  • Hong Wang
    Southern University of Science and Technology, China
    Structure and Properties Tailoring of Dielectric Composites for Energy Storage Capacitors
  • Yang Shen
    Tsinghua University, China
    Polymer Composite Dielectrics for Energy Storage: the Path from Fundamental Research to Engineering Applications
  • Qingguo Chi
    Harbin University of Science and Technology, China
    Polymerbased Dielectric Composites for Electrical Energy Storage
  • Xihong Hao
    Inner Mongolia Academy of Science and Technology, China
    Research status of energy storage behavior of inorganic dielectric materials
  • Hailong Hu
    Central South University, China
    Rational design of ferroelectric polymer nanocomposites with enhanced dielectric performance for energy storage
  • Penghao Hu
    Institute for Advanced Materials and Technology, University of Science & Technology Beijing, China
    Moderate agglomerate Inorganic nanofillers enhance the energy storage performance in dielectric polymer nanocomposite
  • Li Jin
    Xi’an Jiaotong University, China
    Achieving ultrahigh energy storage performance in bismuth sodium titanatebased environmental friendly dielectrics by ferroelectric polarization regulation
  • Guorong Li
    Shanghai Institute of Ceramics, Chinese Academy of Sciences, China
    Electric field-induced antiferroelectric-to-ferroelectric phase transition of SnO2 doping Pb(Yb1/2Nb1/2)O3-based anti
  • Gang Liu
    Southwest University, School of Materials and Energy, China
    Lead-free dielectric ceramics for energy storage by viscous polymer process
  • Ming Liu
    School of Microelectronics, Xi’an Jiaotong University, China
    Oxide Film Capacitor Working at Ultrahigh Temperature with Superior Energy Storage Performances
  • Xiaojie Lou
    Xi’an Jiaotong University, China
    Enhanced energy storage density of Sr0.7BixTiO3 leadfree relaxor ceramics via Asite defect and grain size tuning
  • Nengneng Luo
    Guangxi University, China
    Design of AgNbO3 antiferroelectrics and its application for energy storage
  • Jun Ouyang
    Qilu University of Technology, China
    Engineering the Columnar Nanograin Structure in Sputtered BaTiO3 Ferroelectric Films on Si to Achieve a Giant Capacitive Energy Density and a High Efficiency
  • Biaolin Peng
    Xidian University, China

    High Electrocaloric Effect, High Dielectric Tunability Performance and High Energy Storage Properties in Ferroelectric Thin Films With High Qualities Prepared by Sol-Ge

  • Zhonghui Shen
    Wuhan University of Technology, China
    Applications of PhaseField Simulation on Dielectric Composites for Capacitive Energy Storage
  • Zong Yang Shen
    Jingdezhen Ceramic Institute, China
    BST-BNT based relaxor ferro- electric ceramics for pulsed power energy storage capacitors
  • Dawei Wang
    Shenzhen Institute of Advanced Tech. Chinese Academy of Sciences, China
    Lead-Free Electroceramics and MLCCs for Energy Storage
  • Longwen Wu
    College of Electrical Engineering, Sichuan University, China
    Opportunities and Challenges of Lead-free High-Energy-Density MLCC for Applications in High-Power-Den-sity Converters
  • Jiwen Xu
    Guilin University of Electronic Technology, China
    Energy storage applicationoriented BNT-based ceramics by restraining fieldinduced giant strain
  • Haibo Yang
    Shaanxi University of Science and Technology, China
    Significantly enhanced energy storage properties of KNN-based ceramics via synergistic strategy
  • Fang Zhou Yao
    Yangtze Delta Region Institute of Tsinghua University, Zhejiang, China
    Multiscale structural engineering of dielectric ceramics for energy storage applications
  • Dou Zhang
    State Key Laboratory of Powder Metallurgy, Central South University, China
    High Performance Dielectrics by Hierarchical Microstructures Design
  • Haibo Zhang
    Huazhong University of Science and Technology, China
    Perspective on the Development of Lead-free Ferroelectric Energy-Storage Ceramics and Multilayer Capacitors
  • Shifeng Zhao
    Inner Mongolia University, China
    Regulation on energy storage for lead-free relaxor ferroelectric films
  • Yuhua Zhen
    China Univ. of Petroleum, China
    Enhanced energy storage density & discharge efficiency in (K,Na) NbO3-based ceramics prepared using a new scheme
  • Lifeng Zhu
    University of Science and Technology Beijing, China
    AgNbO3-based multilayer capaci- tors for ultra-high energy storage capacity
  • Hao Hua
    Wuhan University of Technology, China
    Significantly Enhanced Energy Storage Performance of BaTiO3-based Thin Films
  • Shunjun Zhang
    University of Wollongong, Australia
    Lead free relaxor antiferroelectrics for energy storage applications
M.Lead-Free Ferroelectric/Piezoelectric Ceramics
N.Perovskites for Solar Cells, LEDs, and Other Applications
O.Thermoelectric Materials and Devices for Sustainable Energy Utilization
P.Ferroelectric/Multiferroic Materials & Devices
Q.Sensitive Materials and Devices
R.Ionic and mixed conducting ceramics
S.Advances in Bioceramics
T.Nanoscale Characterizations of Ceramics
U.Modeling and Design of Ceramics and Composites
专题首页

Copyright © 2018 . 中国硅酸盐学会版权所有