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
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
Topic: Sensitive materials and devices that are capable of converting different physical and chemical stimuli, e. g. mechanical, thermal, gaseous and optical signals into electrical response, are of great potential for man-made robots to perceive the world like human beings, or assisting people to explore the fields that currently cannot be touched, or making our life more comfortable and protecting us from danger. According to their sensitive feature, they could be classified as temperature-sensitive, gas-sensitive, voltage-sensitive, and optical-sensitive materials and so on. Correspondingly, they are manufactured as thermistors, gas sensors, varistors, and optical sensor. The main trends in the development of sensitive materials and devices with high performance include low-dimensional and high-dimensional designs, low-temperature and facile preparation strategies, chip-type integration approaches, flexible and stretchable features and multi-functional modules. This symposium covers all these main trends, and papers on newly emerged sensitive materials, progresses in preparation and characterization techniques, and new applications of sensitive materials and devices all are welcome. The topics of this symposium will include but not limit to: 

Q01 Thermal sensitive materials and devices
Q02 Voltage sensitive materials and devices
Q03 Gas and humidity sensitive materials and sensor
Q04 Acoustic transducer materials and devices
Q05 Optical sensitive materials and detectors
Q06 Pressure sensitive materials and devices
Q07 Novel sensitive materials and devices

Symposium Chairs: 
Zilong Tang (唐子龙) (Tsinghua University)
Qiuyun Fu (傅邱云) (Huazhong University of Science and Technology)
Wanping Chen (陈万平) (Wuhan University)
Geyu Lu (卢革宇) (Jilin University)
Wangyang Fu (符汪洋) (Tsinghua University)

Keynote speakers (4+): 
Hideo Miura (Tohoku University, Japan)
Norbert Klein (Imperial College London, United Kingdom)
Zhengjun Zhang  (Tsinghua University)
Long You (Huazhong University of Science and Technology)

Invited speakers (10+):
Ken Suzuki (Tohoku University, Japan)
Qinqiang Zhang (Tohoku University, Japan)
Lizhou Xu (Imperial College London, United Kingdom)
Wanping Chen (Wuhan University)
Zhao Wang (Hubei University)
Xiaoyan Zhang (Tsinghua University)
Wangyang Fu (Tsinghua University)
Wen Dong (Huazhong University of Science and Technology)
Zehui Li (Peking University)
Wei Luo (Huazhong University of Science and Technology)

Point of Contact:
Zi-Long Tang (tzl@mail.tsinghua.edu.cn)
Wang-Yang Fu (fwy2018@mail.tsinghua.edu.cn)
  • Hideo MIURA
    Fracture and Reliability Research Institute, Tohoku University, Japan
    Point Defect-Induced Variation of Electronic Properties and Reliability of Oxides for High Performance Devices
  • Norbert Klein
    Imperial College London, Department of Materials, United Kingdom
    Graphene based sensors for healthcare applications
  • Zhengjun Zhang
    TSINGHUA UNIVERSITY, China
    Surface-enhanced Raman scattering by Ag-based Nanostrcutures
  • Long You
    Huazhong University of Science and Technology, China
    A spin–orbit torque memristive device for sensing magnetic fields
  • Ken Suzuki
    Fracture and Reliability Research Institute, Tohoku University, Japan
    Strain-induced change of Electronic Band Structure of Graphene Nanoribbons and Its Sensor Application
  • Qinqiang Zhang
    Fracture and Reliability Research Institute, Tohoku University, Japan (Chinese)
    Strain-controlled Graphene-nanoribbon-base Biochemical Sensor with High Selectivity and Sensitivity
  • Dr. Lizhou Xu
    Imperial College London, UK
    Graphene field effect transistor arrays with on-chip integrated liquid electrodes for fast COVID-19 and cancer exosome detection
  • Wanping CHEN
    Wuhan University, China
    Contrasting Experimental Results for Understanding Room-Temperature Gas Sensing Mechanisms of Metal Oxide Semiconductors
  • Zhao Wang
    Hubei University, China
    Room-Temperature Hydrogen Gas Sensors based on the 1D nanostructures of semiconductor oxides
  • Xiaoyan Zhang
    Tsinghua University, China
    Solid-State Nanopores for Single Molecular Sensing
  • Wangyang Fu
    Tsinghua University, China
    The limit of detection in nanoscale field-effect transistors
  • Wen Dong
    Huazhong University of Science and Technology, China
    Highly piezoelectric photoferroelectric materials and devices
  • Zehui Li
    School of Physics, Peking University, China
    Environmental electrochemical sensor with single-atomic-site metal catalysts
  • Wei Luo
    Huazhong University of Science and Technology, China
    Surface Acoustic Wave Sensors for Extreme Environment
R.Ionic and mixed conducting ceramics
S.Advances in Bioceramics
T.Nanoscale Characterizations of Ceramics
U.Modeling and Design of Ceramics and Composites
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