Table of Contents

PrefaceAcknowledgementList of contributorsEditor biographyAuthor biographies

1. Advances in nanoengineered air electrodes: towards high performance solid oxide cells

2. Recent advances in the understanding of the influence of surface chemistry and microstructure on the functional properties of solid oxide cell air electrodes

3. Tuning heterointerfaces for high-performance solid oxide cells

4. Interface engineering for highly active and stable solid oxide cell electrodes

5. Nanostructuring the electrodes of solid oxide cell via atomic layer deposition

6. Novel electrode materials and nano-oxide composite electrolytes

7. Tailoring nanostructured fuel electrode materials for solid oxide cells through redox exsolution

8. Engineering nanostructured fuel electrodes for high-performance, durable SOCs through infiltration

9. The design and modification of the microstructure of solid oxide cell electrodes to enhance electrochemical performance (the use of anisotropic microstructures to modify electrodes)

10. Synchrotron x-ray radiation for solid oxide cells material characterization

About the Author

Dr. Katherine Develos-Bagarinao has more than 20 years of experience in research and development of functional oxide materials, including high-Tc superconductors and solid oxide cells (solid oxide fuel cells and solid oxide electrolysis cells). Her academic achievements include more than 100 peer-reviewed publications, three contributed book chapters, and three registered patents. She obtained her PhD from Yamagata University in 1999 and is currently a senior researcher at the Global Zero Emission Research Center of the National Institute of Advanced Industrial Science and Technology (AIST).