Scopes
(Including but not limited to the following topics)
Track 1: Energy Chemistry
Electrocatalytic reaction mechanisms and in-situ characterization
Photocatalysis/Photoelectrocatalysis new material design
Key materials for hydrogen energy catalysis (HER/OER/ORR)
Carbon dioxide reduction and nitrogen reduction catalysis
Solid-state electrolyte interface chemistry
Electrolysis water and electrochemical synthesis
Mechanism of multi-electron transfer reactions
Biomimetic catalysis and enzyme catalysis
High-throughput computing and catalyst design
Kinetics of energy chemistry processes
Energy chemistry under extreme conditions
Sustainable green chemical synthesis
Energy chemistry - materials - devices synergy
Breakthroughs in grid-level energy storage technology
Renewable energy and energy storage coupling
Hydrogen-electric hybrid energy storage system
Track 2: Energy Storage Materials
Structural regulation of high-capacity electrode materials
Development of solid-state electrolyte materials
Design of fast-charging battery materials
Materials for sodium/kali/zinc-ion batteries
Lithium-sulfur battery materials and catalytic conversion
Key materials for metal-air batteries
Multivalent ion battery materials
Innovations in supercapacitor materials
Interface engineering and electrode stability
Material computing and machine learning design
Green degradable energy storage materials
Adaptability of materials under extreme conditions
Track 3: Battery Technology
Manufacturing and integration of solid-state batteries
Battery intelligent manufacturing and digital twins
Innovations in battery management systems (BMS)
Battery thermal management and safety technologies
Battery recycling and resource regeneration
Battery rapid detection and life prediction
Design of new battery systems (liquid flow, solid state, etc.)
Battery standards and safety certifications
Integration of large-scale energy storage systems
Full life cycle management of batteries
Special application battery technologies
Economic and cost analysis of batteries ......
Track 1: Energy Chemistry
Electrocatalytic reaction mechanisms and in-situ characterization
Photocatalysis/Photoelectrocatalysis new material design
Key materials for hydrogen energy catalysis (HER/OER/ORR)
Carbon dioxide reduction and nitrogen reduction catalysis
Solid-state electrolyte interface chemistry
Electrolysis water and electrochemical synthesis
Mechanism of multi-electron transfer reactions
Biomimetic catalysis and enzyme catalysis
High-throughput computing and catalyst design
Kinetics of energy chemistry processes
Energy chemistry under extreme conditions
Sustainable green chemical synthesis
Energy chemistry - materials - devices synergy
Breakthroughs in grid-level energy storage technology
Renewable energy and energy storage coupling
Hydrogen-electric hybrid energy storage system
Track 2: Energy Storage Materials
Structural regulation of high-capacity electrode materials
Development of solid-state electrolyte materials
Design of fast-charging battery materials
Materials for sodium/kali/zinc-ion batteries
Lithium-sulfur battery materials and catalytic conversion
Key materials for metal-air batteries
Multivalent ion battery materials
Innovations in supercapacitor materials
Interface engineering and electrode stability
Material computing and machine learning design
Green degradable energy storage materials
Adaptability of materials under extreme conditions
Track 3: Battery Technology
Manufacturing and integration of solid-state batteries
Battery intelligent manufacturing and digital twins
Innovations in battery management systems (BMS)
Battery thermal management and safety technologies
Battery recycling and resource regeneration
Battery rapid detection and life prediction
Design of new battery systems (liquid flow, solid state, etc.)
Battery standards and safety certifications
Integration of large-scale energy storage systems
Full life cycle management of batteries
Special application battery technologies
Economic and cost analysis of batteries ......
Important Dates/重要日期
- Submission Deadline: 2026.4.18
- Registration Deadline: 2026.4.25
- Conference Date: 2026.5.3
- Notification Date: About a week after the submission
Submission Portal/投稿方式
Mail Address: icagdta_conf@163.com
If you have any question or need any assistance regarding the conference, please feel free to contact our conference specialists:
徐老师
+86-15680829715(微信同号)
1347638002
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