Corrosion and Degradation in Fuel Cells, Supercapacitors and Batteries

Part I. Electrochemical energy storage and conversion.- 1. Electrochemical energy storage and conversion devices – Types and importance.- 2. Materials degradation in electrochemical energy storage and conversion devices – An overview.- Part II. Fuel cells.- 3. Corrosion and its mitigation approaches of metallic bipolar plates.- 4. Carbon corrosion in fuel cells- Fundamentals and mitigation approaches.- 5. Platinum dissolution and ionomer redistribution/degradation in fuel cells – An evaluation.- 6. Performance degradation of PEM fuel cells during startup-shutdown cycles – A case study.- Part III. Supercapacitors.- 7. Corrosion and degradation in supercapacitors and mitigation approaches.- 8. Carbon corrosion in supercapacitors.- Part IV. Batteries.- 9. Corrosion in Pb-acid batteries – Recent developments.- 10. Corrosion in nickel-metal hydride (Ni-MH ) batteries– Recent developments.- 11. Corrosion of current collectors in metal-ion batteries.- 12. Novel corrosion-resistant nonmetallic current collectors for aqueous batteries.- 13. CEI and SEI formation in Li-ion batteries.- 14. Corrosion and degradation in aqueous Zn-ion batteries.- 15. Novel electrolytes and electrolyte additives for metal-ion and metal-air batteries – A case study of acetonitrile and LiCTFSI.- 16. Degradation in metal-air batteries - Recent developments.- 17. Anode corrosion and its mitigation in metal-air batteries - I (Li/Na/Al/Mg-air).- 18. Anode corrosion and mitigation in metal-air batteries – II (Zn-air).- 19. Electrolyte additives/corrosion inhibitors for anode corrosion in metal-air batteries.- 20. Approaches to construct high-performance Mg-air batteries.- 21. Corrosion and its control in redox-flow batteries.