ICFM2023 Symposia & Forums Details

N/O Symposium Name Symposium Chairs Contact Main Topics
A-01 可持续发展能源材料
Energy Materials for Sustainable Development
  • Zhengxiao Guo
    University of Hong Kong
  • Renjie Chen
    Beijing Institute of Technology
  • Ying Wu
    North China Electric Power University
  • Lototskyy MYKHAYLO
    University of the Western Cape, HySA Systems, South Africa
  • Xuejie Huang
    Institute of Physics, Chinese Academy of Sciences & Songshan Lake Laboratory for Materials
  • Zhigang Qi
    Innoreagen Power Technology CO., LTD.
  • Jian Li
    Huazhong University of Science and Technology
Bogu Liu
Energy conversion and storage materials, secondary battery (Ni-MH battery, lithium-ion battery, sodium/magnesium ion battery, lithium-sulfur battery, lithium-air battery, etc.), fuel cell (PEM, SOFC, etc.), hydrogen energy materials (hydrogen production, hydrogen storage, hydrogen transport and hydrogen use), energy storage materials, supercapacitors.
A-02 先进热电材料和器件
Advanced Thermoelectric Materials and Devices
  • Yuan Deng
    Beihang University
  • Lidong Zhao
    Beihang University
  • Jun Luo
    Shanghai University
  • Huaizhou Zhao
    Institute of Physics, CAS
  • Ran Ang
    Sichuan University
  • Zhigang Chen
    Queensland University of Technology
  • Qingyu Yan
    Nanyang Technological University
Feng Pan
  • Thermoelectric Materials: synthesis, characterization, transport properties
  • Thermoelectric devices: interfaces, systems, applications
  • Thermoelectric theory: physics, calculations and simulations
A-03 纳米能源材料
Nano Energy Materials
  • Zhonglin Wang
    Beijing Institute of Nanoenergy and Nanosystems, Chinese Academy of Science
  • Jeong Ho Cho
    Yonsei university
  • Sang-Woo Kim
    Yonsei University
  • Rusen Yang
    Xidian University
  • Wenzhuo Wu
    Purdue University
  • Yunlong Zi
    Hong Kong University of Science and Technology (Guangzhou)
  • Junyi Zhai
    Beijing Institute of Nanoenergy and Nanosystems, Chinese Academy of Science
  • Qijun Sun
    Beijing Institute of Nanoenergy and Nanosystems, Chinese Academy of Science
Weiguo Hu
Qijun Sun
Researches on theory, materials, devices and applications of nanogenerators, piezoelectronics, energy storage, solar cell, etc.
A-04 生态环境材料
Advances in Eco-materials
  • Claudia L Bianchi
    University of Milan, Italy
  • Wenbin Cao
    University of Science and Technology Beijing, China
  • Soo Whon Lee
    Sun Moon University, Korea
  • ShuZhou Li
    Nanyang Technological University, Singapore
  • Santi Maensiri
    Suranaree University of Technology, Thailand
  • Sanjay Mathur
    Cologne University, Germany
  • Federico Rosei
    INRS–EMT, Univ. du Québec, Varennes, Canada
  • Anliang Wang
    Shandong University, China
  • Shu YIN
    Tohoku University, Japan
  • Xiao Zhi
    China National Building Materials Group Corporation
Qipeng Lu

Qi Wang
  • 清洁能源的储存与转化
    Clean Energy Conversion and Storage
  • 催化材料、光催化与吸附材料、光波屏蔽材料、颜料、传感
    Catalysts, Photocatalysts and Adsorbents, Light Shielding Materials, Pigments and Sensors
  • 碳捕获和封存
    Carbon Capture and Storage
  • 功能涂层、自愈合材料、多孔材料、免维护材料
    Functional Coatings, Self-healing Materials, Porous Materials and Maintenance-free Materials
  • 环境净化材料与环保材料
    Environmental Purification and Protection Materials
  • 材料的长效服役、可靠性、耐热性、导电性、耐磨性
    Durability, Reliability, Heat Resistance, Conductivity and Wear Resistance of Materials
  • 绿色建材与固废循环利用
    Green Bui lding Materials & Solid Waste Recycling and Recovery
  • 绿色制造与加工
    Green Manufacturing and Processing
A-05 先进热能材料
Materials research in thermal energy, processes and management
  • Wenpei Gao
    Shanghai Jiao Tong University
  • Zhenpeng Yao
    Shanghai Jiao Tong University
  • Hui Wang
    Central South University
  • Fanxing Li
    North Carolina State University
  • Chengwei Wang
    University of Science and Technology of China
Wenpei Gao
Materials synthesis, measurement, characterization and computation in thermal energy storage, thermal management in electronics, thermal transport, thermal catalysis, and other related topics.
B-01 量子材料
Quantum Materials
  • Wei Ren
    Shanghai University
  • Guixin Cao
    Shanghai University
  • ChunNing Jeanie Lau
    The Ohio State University
  • Jeil Jung
    The University of Seoul
  • Lee Burton
    Tel Aviv University
  • Zhenhua Qiao
    University of Science and Technology of China
  • Junming Liu
    Nanjing University
Heng Gao
  • Topological materials
  • Two-dimensional materials
  • Correlated electronic materials
  • Spintronic materials
  • Multiferroics
B-02 铁电/压电材料及其应用
Ferroelectric/Piezoelectric Materials and Their Emerging Applications
  • Jingfeng Li
    Tsinghua University
  • Shujun Zhang
    University of Wollongong
  • Wook Jo
    Ulsan National Institute of Science and Technology
  • Satoshi Wada
    University of Yamanashi
  • Barbara Malic
    Jožef Stefan Institute
  • Jianguo Zhu
    Sichuan University
  • Zhuo Xu
    Xi’an Jiaotong University
  • Yichun Zhou
    Xidian University
Lisha Liu

Min Liao
  • Piezoelectric materials and their properties: ceramics, films, and single crystals
  • Applications of piezoelectric materials: actuators, sensors, and tranducers
B-03 柔性电子材料与器件
Soft Electronic Materials and Devices
  • Zijian Zheng
    Hong Kong Polytechnic University
  • Wenlong Cheng
    Monash University
  • Guozhen Shen
    Beijing Institute of Technology
  • Xue Feng
    Tsinghua University
Qilin Hua
  • Flexible electronics
  • Wearable electronics
  • Stretchable electronics; Soft matters
  • Flexible energy harvesting, conversion, and storage materials and devices
B-04 光电材料
Novel Optoelectronic Materials and Devices
  • Zhiyong Fan
    Hong Kong University of Science and Technology
  • Guozhen Shen
    Beijing Institute of Technology
  • Johnny C. Ho
    City University of Hong Kong
  • Hyunhyub KoUlsan National Institute of Science and Technology, Korea
  • Yu-Lun Chueh
    National Tsing Hua University
  • Leilei Gu
    Shanghai Jiao Tong University
  • Daquan Zhang
    Hong Kong University of Science and Technology
Daquan Zhang
Including but not limited to traditional semiconductors, metal halide perovskites, 2D materials, and organic semiconductors-based
  • Photodetectors, image sensors, infrared/UV detectors, high-energy radiation detection etc
  • Light-emitting didoes, lasers, etc
  • Photovoltaic devices, photo-electrochemical water splitting, etc
  • Flexible optoelectronic devices
  • Optoelectronic nanomaterials growth and their novel properties
  • Optoelectronic device physics, such as carrier dynamics, etc
  • Fabrication techniques for high-performance optoelectronic devices
B-05 手性微纳材料
Chiral Micro & Nano Materials
  • Zhifeng Huang
    The Chinese University of Hong Kong
  • Dangyuan Lei
    City University of Hong Kong
  • Zhiyong Tang
    National Center for Nanoscience and Technology
  • Qiangbin Wang
  • Hua Kuang
    Jiangnan University
  • Benzhong Tang
    The Chinese University of Hong Kong, Shenzhen;
  • Minghua Liu
    Institute of Chemistry, CAS
Junjun Liu
  • 有机、无机金属、无机非金属等手性微、纳材料:
    Organic/inorganic Chiral Micro & Nano Materials:
  • 新型手性微、纳结构与材料的制备
    Advanced fabrication of chiral micro & nano structures and materials
  • 手性相关的材料性能表征
    Characterization of various chirality-related properties
  • 在化学、光学、光电学、生物医学等领域的应用
    Promising applications in diverse fields of, e.g., chemistry, optics, optoelectronics, biomedical science, and so on.
B-06 信息存储材料
Information Storage Materials
  • Zhitang Song
    Shanghai Institute of Microsystem and Information Technology, CAS
  • Weisheng Zhao
    Beihang University
  • Wenjie Yu
    Shanghai Institute of Microsystem and Information Technology, CAS
  • Lin Chen
    Fudan University
  • Jingsheng Chen
    National University of Singapore
Yiying Wang
Research on materials applied to emerging information storage technologies, such as PCM and FeRAM, including material innovation, microstructure and property analysis, storage performance and mechanism, preparation process, design optimization and application; related to the technology development trend of memory industry:
C-01 生物医用材料
Biomedical Materials
  • Chengtie Wu
    Shanghai Institute of Ceramics, Chinese Academy of Sciences, China
  • Akon Higuchi
    National Central University, Taiwan, China
  • Kelvin Yeung
    The University of Hongkong, China
  • Michael Gelinsky
    Technical University Dresden, Germany
  • Martina Stenzel
    University of New South Wales, Australia
  • Hongxu Lu
    Shanghai Institute of Ceramics, Chinese Academy of Science, China
Hongshi Ma
  • Bioactive materials for regenerative medicine
  • Tissue Engineering
  • 3D Bioprinting
  • Nanomedicine
C-02 仿生材料
Bio-inspired Materials
  • Shutao Wang
    Technical Institute of Physics and Chemistry, CAS
  • Hao Bai
    Zhejiang University
  • Yuchen Wu
    Technical Institute of Physics and Chemistry, CAS
  • Ximin He
    University of California, Los Angeles
Yongyang Song

Xiangyu Jiang
  • Bioinspired structure and materials
  • Interfacial materials and chemistry
  • Theranostics and drug delivery system
  • Functional materials and devices
C-03 健康与抗菌材料
Health and Antibiosis Materials
  • Jian Ji
    Department of Polymer Science and Engineering, Zhejiang University
  • Fujian Xu
    Beijing University of Chemical Technology
  • Bizhong Li
    Institute of Chemistry, Chinese Academy of Sciences (Sublime Nanotechnology
  • Kun Lian
    University of the South
  • dan Wang
    Beijing University of Chemical Technology
  • Peng Li
    Xi 'an Biomedical Materials Engineering Technology Center, Northwestern Polytechnical University
  • Liqiao Wei
    Taiyuan University of Technology
Baolong Niu
  • New materials for epidemic prevention
  • Medical antibacterial/antiviral materials
  • Conventional antibacterial/antiviral materials
  • Interface problems of antibacterial materials
C-04 海洋生物材料
Marine Bio-materials
  • Yanzhi Xia
    State Key Laboratory of Bio-Fibers and Eco-Textiles
  • Yu Chen
    Beijing Institute of Technology
  • Chaoxu Li
    Qingdao Institute of Bioenergy and Bioprocess Technology, CAS
Yufeng Quan
Marine polysaccharide, polymer fibers, biobased energy, environmental and smart materials, and the related processes.
D-01 先进高温结构材料
Advanced High Temperature Structural Materials
  • Lin Liu
    Northwestern Polytechnical University
  • Gu Yuefeng
    Zhejiang University
  • Dong Hongbiao
    University of Leicester, UK
  • Ji Zhang
    China Iron and Steel Research Institute Group
  • Yong Yuan
    Xi'an Thermal Power Research Institute Co. Ltd.
  • Shusuo Li
    Beihang University
  • Guoqing Zhang
    Beijing Institute of Aeronautical Materials
  • Shusuo Li
    Beihang University
Xinbao Zhao

Yongwang Kang

Manping Liu
The symposium will focus on advanced high-temperature structural materials. Topics will include, but not limited to:
alloy design and practices; synthesis, solidification, hot-working and additive processing; testing and mechanical properties environmental properties and coatings; characterization and mechanism analysis; modeling and simulation; life prediction methodologies.
D-02 先进结构材料与材料的力学性能
Advanced Structural Materials and Mechanical Properties of Materials
  • Jian Lu
    City University of Hong Kong
  • Xiaoxu Huang
    Chongqing University
  • Mingxin Huang
    University of Hong Kong
  • Yong Liu
    Nanchang University
  • Ge Wu
    Xi'an Jiaotong University
  • Zhe Chen
    Shanghai Jiaotong University
Xintong Wu
Subjects on high performance steel, aluminum, magnesium, titanium alloys, metal matrix composites, nano, heterogeneous and gradient structural materials, etc:
  • Microstructure evolution and property regulation
  • Multi-scale analysis and characterization technology of materials
  • Inhomogeneous deformation and control of materials
  • Mechanistic study of energy storage materials and devices
  • 3D manufacturing & technology
  • Advanced structural material manufacturing equipment, process and system
D-03 高熵合金
High Entropy Alloy Metallic Glasses
  • Kefu Yao
    Tsinghua University
  • Junwei Qiao
    Taiyuan University of Technology
  • Yong Zhang
    University of Science and Technology Beijing
  • Yang Yong
    City University of Hong Kong
  • Eun Soo Park
    Seoul National University, Korea
Yang Shao
Alloys design, deformation mechanism, phase stability of high-entropy alloys and amorphous alloys; Mechanical, physical and chemical properties and related topics of high-entropy alloys and metallic glasses.
D-04 先进轻金属材料
Advanced Light Alloy
  • Bin Jiang
    Chongqing University
  • Mingxing Zhang
    The University of Queensland
  • Shouxun Ji
    Brunel University, London
  • Liming Peng
    Shanghai Jiaotong University
  • Zhihua Dong
    Chongqing University
  • Jiangfeng Song
    Chongqing University
  • Hongbin Zhao
    China Grinm Group Corporation Limited
  • Qinghe Yu
  • Shoujie Yang
    Beijing Institute of Aeronautical Materials
  • Xu Huang
    Beijing Institute of Aeronautical Materials
  • Xianghong Liu
    Northwest Institute For Non-ferrous Metal Research
  • Shewei Xin
    Northwest Institute For Non-ferrous Metal Research
  • Manping Liu
    Jiangsu University
Jiangfeng Song

Zeng Ying
  • Mg and its alloys, advanced processing technologies
  • Al alloys and their advanced processing technologies
  • Ti and its alloys, advanced processing technologies
  • Light metal and alloys’ functional materials
D-05 先进结构陶瓷与陶瓷基复合材料Advanced Structural Ceramics and Ceramic Matrix Composites
  • Jinshan Yang
    Shanghai Institute of Ceramics, CAS
  • Qiangang Fu
    Northwestern Polytechnical University
  • Wan Jiang
    Donghua University
  • Yanhui Chu
    South China University of Technology
  • Sanjay Mathur
    Universität zu Köln
  • Ji Zou
    Wuhan University of Technology
  • Wei Luo
    Donghua University
  • Yuchi Fan
    Donghua University
  • Zhengyi Fu
    Wuhan University of Technology
  • Laura Silvestron
    Institute of science and technology for ceramics (ISSMC), Italy
Wei Luo

  • Ceramic matrix composites: interfaces and synthesis
  • Ceramic matrix composites: modeling and simulations
  • Ceramic matrix composites: properties and applications
  • Ceramic Nanocomposites, Ceramics for Extreme Environments, Advances in Sintering Techniques, High-entropy Ceramics, Ceramic Fibers, Transparent Ceramics and Luminescent Materials, Ceramic Coatings, Superhard Materials, Ceramic Genome, Polymer Derived Ceramics, Bioceramics
E-01 超材料和多功能材料
Multifunctional Materials and Metamaterials
  • Ji Zhou
    Tsinghua University
  • Huaxin Peng
    Zhejiang University
  • Runhua Fan
    Shandong University
  • Zhicheng Shi
    Ocean University of China
  • PeiTao Xie
    Qingdao University
  • Yuan Yuan
    Shanghai Maritime University
  • Zhongyang Wang
    Shanghai Jiao Tong University
  • Hiroshi Furuta
    Kochi University of Technology
Kai Sun
  1. 超材料:电磁/光学/力学/声学/热学/生物构型超材料、光子晶体、等离基元、超表面、人工构型材料、超材料测试与微纳制造技术等;
    Metamaterials: electromagnetic/optical/mechanical/acoustic/thermal/biological configuration metamaterials, photonic crystals, plasmonic motifs, metasurfaces, artificial configuration materials, metamaterial testing and micro-nano manufacturing technology, etc.;
  2. 电磁屏蔽/吸收/透波材料:射频段、微波段、太赫兹、光波段等;
    Electromagnetic shielding/absorption/transmission materials: radio frequency band, microwave band, terahertz, optical band, etc.;
  3. 其他功能材料:介电、磁性、光学、热学、声学等。
    Other functional materials: dielectric, magnetic, optical, thermal, acoustic, etc.
E-02 超导材料
Superconducting Materials
  • Zhixiang Shi
    Southeast University
  • Gang Mu
  • Xiaoming Xie
  • Junyi Ge
    Shanghai University
  • Chuanbing Cai
    Shanghai University
  • Tsuyoshi Tamegai
    University of Tokyo
Fei Chen
  • New superconductors
  • Applied superconducting materials
  • Vortex matter and flux pinning in superconductors
  • Vortex dynamics in bulk/nano/heterostructures/hybrids
  • Performance test and evaluation of superconducting materials
E-03 磁性材料
Magnetic Materials
  • Shouguo Wang
    Anhui University
  • Yong Jiang
    Tiangong University?
  • Chengbao Jiang
    Beihang University
  • Runwei Li
    Ningbo Institute of Materials Technology and Engineering, CAS
  • Tom Wu
    The Hongkong Polytechnic University
  • Rongming Wang
    University of Science and Technology Beijing
Guoqiang Yu
Magnetic functional materials have always been at the forefront of materials science research due to their unique physical/chemical properties and broad application prospects. Current domestic and foreign researches mainly focus on metal permanent magnetic materials, magnetic refrigerant materials, metal soft magnetic materials, ferrite materials, magnetic phase transition materials, magnetostrictive materials, magnetic nanomaterials, magneto-optical materials, spintronic materials, multiferroic materials, two-dimensional magnetic materials, topological magnetic materials, magnetic quantum materials, and other advanced magnetic functional materials. The goal is to realize advanced magnetic functional materials with unique magnetic, optical, electrical, and thermal effects through new material development, micro-nano structure adjustment, composite material design, interface adjustment, and other methods, and to promote the research and application of advanced magnetic functional materials. This session aims to combine the hotspots and difficult issues in this research field, conduct extensive academic discussions on the current research status and development trends of advanced magnetic functional materials, exchange the latest scientific research progress, and jointly promote the development of related research in the field of advanced magnetic functional materials.
F-01 微纳米材料与器件
Micro-nano Materials and Devices
  • Jun He
    Wuhan University
  • Xiangfeng Duan
    University of California at Los Angeles
  • Lei Liao
    Hunan University
  • Yu Ye
    Peking University
Xuming Zou
Subjects on applications of micro and nano materials and devices in next generation information technology, etc:
  • Fabrication and application of semiconductor micro-nano devices
  • Growth and characterization of semiconductor micro-nano materials
  • Semiconductor micro-nano processing technology
  • Surface/interface physics of micro/nano devices
F-02 纳米薄膜与微纳器件
From Thin Film to Nanomembranes: Materials, Devices and Systems
  • Yongfeng Mei
    Fudan University, China
  • John Rogers
    Northwestern University, USA
  • Oliver Schmidt
    Chemnitz University of Technology, Germany
  • Jeehwan Kim
    Massachusetts Institute of Technology, USA
  • Gregory Parsons
    North Carolina State University, USA
  • Xiuling Li
    University of Texas at Austin, USA
Jizhai Cui
Gaoshan Huang
Enming Song
Wen Huang
Qinglei Guo
Honglou Zhen
  • Nanomembrane materials and growth
  • Thin film technology and novel process
  • Atomic Layer Deposition and Atomic Layer Etching
  • Nanomembrane assembly and self-assembly
  • On-chip optoelectronic devices and optical microcavity
  • Inorganic flexible electronics and biomedical engineering
  • Nanomembrane actuators and micro/nanorobots
G-01 材料的先进制备技术
Advanced Manufacturing Technology for Materials
  • Stephen Liu
    Colorado School of Mines, USA
  • Myung-Hyun Kim
    Pusan National University, Korea
  • Simon Jahn
    ifw Jena - Germany
  • Xu Lei
    The Welding Institute (TWI), UK
  • Erika Hodulova
    Slovak Academy of Science, Slovakia
  • Lina Yu
    Osaka University, Japan
  • Martin Peterlechner
    University of Muenster, Germany
  • Peng Peng
    University of Waterloo, Canada
  • Zhuguo Li
    Shanghai Jiaotong University, China
  • Dou Zhang
    Central South University, China
  • Jian Cao
    Harbin Institute of Technology, China
  • Hong Li
    Beijing University of Technology, China
  • Fei Chen
    Wuhan University of Technology, China
  • Chuanbao Jia
    Shandong University, China
  • Wei Liu
    Beijing Institute of Aeronautical Materials, China
  • Binbin Liu
    University of Science and Technology Beijing, China
  • Neng Li
    Beijing Institute of Aeronautical Materials, China
  • Qiuying Yu
    Beijing Institute of Aeronautical Materials, China
Huaping Xiong
Welding and Joining; Casting; Forging (Plastic Forming); Powder Metallurgy; Surface Modification and Coating; High Energy Beam Processing; Related Computer Simulation, and etc.
G-02 先进材料计算模拟与设计
Advanced Materials by Computational Design and Simulation
  • Miao Zhou
    Beihang University
  • Kesong Yang
    University of California, San Diego
  • Junyi Zhu
    Chinese University of Hong Kong
  • Yuanping Feng
    National University of Singapore
  • Jijun Zhao
    Dalian University of Technology
  • Guanghong Lu
    Beihang University
Chenqiang Hua
  • New materials by computational design, Electronic/magnetic/quantum materials, etc.
  • Multiscale simulations of structural/functional materials
  • Methodology development and refinement
  • Materials high-throughput computation, Materials database, Materials informatics
G-03 材料的增材制造
Additive Manufacturing of Advanced Materials
  • Huiping Tang
    Zhejiang University City College, China
  • Qian Ma
    Royal Melbourne Institute of Technology, Australia
  • Chiba Akihiko
    Tohoku University, Japan
  • Xin Lin
    Northwestern Polytechnical University, China
  • Yunjie Bi
    Jihua Laboratory
  • Bin Liu
    Central South University
  • Gang Chen
    University of Science and Technology Beijing
  • Huakang Bian
    Shanghai University
Shenghang Xu
  • Simulation and Design for Additive manufacturing
  • Preparation and Modification of Raw Materials
  • Additive manufacturing Process and Properties
  • Post-Treatment and Application
G-04 智能计算材料
Intelligent Computing for Materials
  • Jincang Zhang
    Zhejiang Lab/Shanghai University
  • Jie Wang
    Zhejiang University /Zhejiang Lab
  • Xingjun Liu
    Harbin Institute of Technology (Shenzhen)
  • Sheng Sun
    Shanghai University/ Zhejiang Lab
  • Luca Ghiringhelli
    Fritz Haber Institute
  • Runhai OUYANG
    Shanghai University
Yunhong Zhao
  • Artificial intelligence approaches for computational materials science
  • Domain knowledge-guided and data-driven approaches for materials design
  • Other topics related to the intelligent computing and materials
G-05 材料先进表征技术
Advanced Characterization Technology for Materials
  • Dongbai Sun
    Sun Yat-sen University
  • Weidong Zhang
    University of Science and Technology Beijing
  • Yandong Wang
    University of Science and Technology Beijing
  • Yunhai Jia
    NCS China
  • Xiaodong Han
    Beijing University of Technology
  • Xiuling Li
    University of Texas at Austin
Liwu Jiang
  • 大科学装置建设、新表征技术及原位设备研制的进展
    Progress on the development of large scientific facilities, advanced characterization techniques/instruments and in-situ devices
  • 各种衍射、散射及成像技术在结构与功能材料研究中的应用
    Application of diffraction, scattering and imaging techniques in the study of structural and functional materials
  • 材料成分、组织、性能的高通量表征新方法和新技术
    Advanced methods and techniques for high-throughput characterization of material composition, microstructures, and properties
  • 工程材料/部件服役性能的多尺度评价方法和技术
    Multi-scale methods and techniques for evaluating the usage performance of engineering materials and components
  • 材料其他先进表征技术
    Other advanced characterization techniques for materials
G-06 材料的原位表征与设计
In situ Characterization and Design for Advanced Materials
  • Yong Wang
    Zhejiang University
  • Guangwen Zhou
    State University of New York
  • Jakob B. Wagner
    Technical University of Denmark
  • Yi Gao
    Shanghai Advanced Research Institute, CAS
  • Chenghua Sun
    Swinburne University of Technology
  • Wei Liu
    Dalian Institute of Chemical Physics, CAS
Wentao Yuan
In situ Characterization and Design of Functional Nanomaterials
H-01 材料青年学者及研究生论坛
Forum for Young Scholars and Graduate Students
  • Congyi Hao
    Ocean University of China
  • Yanpeng Wang
    Ocean University of China
  • Wenjie Fan
    Ocean University of China
  • Xiaochun Wu
    Ocean University of China
  • Chen Yu
    Ocean University of China
  • Xinglinmao Li
    Ocean University of China
Gongjin Yang
  • Advanced structural materials (先进结构材料)
  • Advanced functional materials (先进功能材料)
  • Energy and environment materials (能源和环境材料)
  • Advanced structural materials (低维材料)
  • Corrosion and corrosion protection of materials (材料的腐蚀与防腐)
H-02 前沿材料产业合作与科技成果转化论坛
Forum on Industrial Cooperation and Transformation of Scientific and Technological Achievements of Frontier Materials
  • Jinsheng Zhang
    TUS Northeast Asia Gro
  • Yongrui Wang
    TUS Northeast Asia Group
Mei Zhao
  • Industrial Development Strategy of Frontier Materials
  • How to Advance Industrial Fusion of Supply Chains and Innovations Chains of Frontier Materials?
  • Industrial Investment Layout and Thoughts on Frontier Materials?
  • Accelerate Transformation of Sci-tech Achievements and Advance New Applications of Advanced Materials
  • Practices and Thoughts on Sci-tech Achievements Transformation by Universities
  • Experiences and Case Sharing by Chinese Academy of Sciences on Sci-tech Achievements Transformation
  • Ideas on Industrial Incubation in the Future from the Perspective of An Incubator
  • Difficulties, Challenges and Practices on Sci-tech Achievements Transformation in the Multi-view of Government, Industry, Universities and Research Institutes, Enterprises, Financial institutions and Incubators
H-03 材料期刊论坛
Forum for Materials Journals
  • Jiuhong Qian
    Youke Publishing Co. Ltd  有科期刊出版(北京)有限公司
  • Dong Luo
    Center of Journals and Literature, IMRCAS  中科院金属所学报文献中心
Xiaomei Ma
H-04 首届科普教育发展(青岛)高峰论坛
The First Science Popularization Research and Development (Qingdao) Summit
  • Yunpeng Qin
    Qingdao CAST;
  • Liqiao Wei
    Taiyuan University of Technology