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Professor Mason’s research expertise is in the field of electroceramics, including both electronically and ionically conductive materials. An overriding focus has been the role of point defects in their structure-property relationships. In the area of electronically conductive materials, his research interests involve transparent conducting oxides (TCOs). These materials boast a rare combination of optical transparency and high electronic mobility. TCOs serve as transparent electrodes in a wide range of applications, from flat panel displays to solar cells. Phase diagram studies are useful for identifying new TCOs and the doping mechanisms in existing and novel TCOs.
High ionic conductivity is required for advanced electrochemical systems, for example solid oxide fuel cells and electrolyzers (SOFCs, SOECs). One particular focus has been the application of AC impedance spectroscopy (AC-IS) in the characterization of polycrystalline ionic conductors. In the case of nano-grained ceramics, the Mason group developed the nano-grained composite model (n-GCM) as a more accurate alternative to the conventional brick layer model for the characterization of local bulk vs. grain boundary properties in nanocrystalline ionic conductors. Another significant application of AC-IS has been for the study of cement-based materials and fiber-reinforced composites.
High ionic conductivity is required for advanced electrochemical systems, for example solid oxide fuel cells and electrolyzers (SOFCs, SOECs). One particular focus has been the application of AC impedance spectroscopy (AC-IS) in the characterization of polycrystalline ionic conductors. In the case of nano-grained ceramics, the Mason group developed the nano-grained composite model (n-GCM) as a more accurate alternative to the conventional brick layer model for the characterization of local bulk vs. grain boundary properties in nanocrystalline ionic conductors. Another significant application of AC-IS has been for the study of cement-based materials and fiber-reinforced composites.
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Journal of materials chemistry Cno. 34 (2017): 8854-8861
Journal of the American Ceramic Societyno. 4 (2017): 1688
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#Papers: 303
#Citation: 13303
H-Index: 63
G-Index: 100
Sociability: 7
Diversity: 3
Activity: 0
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