1. Understanding intermediate temperature solid oxide fuel cells 2. Thermodynamics, polarizations, and intermediate temperature solid oxide fuel cell performance 3. Brownmillerite and Aurivillius electrolytes for intermediate temperature solid oxide fuel cell 4. Proton-conducting electrolyte materials 5. Enhancing the ionic conductivity in the ceria-based electrolytes for intermediate temperature solid oxide fuel cells 6. Cermets as anode materials 7. Progress in perovskite anodes for intermediate-temperature solid oxide fuel cells 8. Cathode materials for proton conducting solid oxide fuel cells 9. Perovskite and layered oxide materials for intermediate temperature solid oxide fuel cells 10. Misfit-layered Ca-cobaltite-11. Stacking designs and sealing principles for IT-solid oxide fuel cell 12. Interaction of glass-ceramic sealants with solid oxide fuel cell components: thermo-mechanical analysis 13. Intermediate-temperature solid oxide fuel cell fueled by biofuels

Dr. Gurbinder Kaur earned her PhD degree from Thapar University in 2012. She was the principle investigator for the project (based on fuel cells), awarded by the Department of Science and Technology, New Delhi (2010-12). She is the recipient of the fellowship under the RFSMS scheme of the University Grants Commission (UGC), 2010. After completing her doctorate, she moved to Virginia Tech, USA to work as a postdoctoral fellow. She was an integral part of the research team of the host institute to address the complex issues of the leakage losses in the planar design of SOFC. She is also a recipient of postdoctoral fellowship from the UGC, New Delhi (2014) for pursuing research work in the field of bioactive glasses. She has been working on a variety of different materials and applications, including high-temperature energy materials, bioactive materials, and optical materials. She is the author/editor of seven books based on her research work with reputed publishing houses such as Elsevier LLC and Springer.