1
Conceptual, Theoretical and Computational Approaches to New Energy Materials
  • Requirements for energy materials: some basics
  • Modeling of energy materials
  • Machine learning and AI for accelerated materials discovery and optimization
Theory Computation AI/ML
2
Advanced Synthesis and Characterization Techniques
  • High-throughput rational design of materials
  • To polymerize or to depolymerize, that is the question
  • Fabrication of sustainable materials
Synthesis Characterization High-throughput
3
Porous Materials for Energy Applications
  • Metal- and covalent-organic frameworks (MOFs and COFs)
  • Zeolites and mesoporous materials
  • Carbon-based porous structures
MOFs COFs Porous Materials
4
Sustainable Fuel Production Materials
  • Photocatalysts for solar fuels
  • Electrocatalysts for energy conversion
  • Thermochemical fuel synthesis
Photocatalysis Electrocatalysis Solar Fuels
5
Innovative Electrochemical Energy Storage Materials
  • High-performance batteries
  • Fuel cell technologies
  • Supercapacitors and hybrid energy storage systems
Batteries Fuel Cells Supercapacitors
6
Advanced Energy Conversion Materials
  • Light ↔ Electricity materials (photovoltaics)
  • Thermoelectric materials
Photovoltaics Thermoelectrics Energy Conversion
7
Emerging Sustainable Structural Materials
  • Bio-derived materials
  • Architected materials
Bio-materials Biopolymers Sustainable Structures