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Study on electrode structure for electron/ion transfer
Comprehensive analysis of electron/ion transfer behaviors
Correlation between electron/ion transfer properties and electrode performance
Design of electrode structures to improve electron/ion transfer properties
Design of thicker electrodes for higher energy density
Direct recycling and upcycling of spent battery electrodes
Direct regenaration of spent cathode materials via surface chemistry engineering
Removal of binders/conductive carbon and selective separation
Upcycling of spent electrode materials into value-added functional composites
Material/structural characterization and electrochemical validation
Carbon nanotube yarn-based film/fiber type electrodes
CNT film current collector for lightweight and high loading electrodes
Design of robust fiber-type energy storage electrodes
Design of transparent and conductive film-type electrodes
Performance evaluation of film/fiber-type electrodes for various applications
Next-generation Li-S batteries
Design of carbon-based nanocomposites for sulfur hosts
Design of core-shell sulfur nanoparticles with higher sulfur content (>80 wt%)
Functionalization of separator with designed nanocomposites
Electrochemical analysis of Li-S batteries for electrochemical solutions
Functional carbon-based nanomaterials design
Synthesis of carbon-based nanomaterials based on metal-organic coordination
Surface functionalization of carbon nanomaterials
Comprehensive characterization of carbon-based nanomaterials
Evaluation of carbon-based nanomaterials for energy-related applications
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