Roadmap on inorganic perovskites for energy applications

Abstract Inorganic perovskites exhibit many important physical properties such as ferroelectricity, magnetoresistance and superconductivity as well their importance as energy materials. Many of the most important energy materials are inorganic perovskites and find application in batteries, fuel cell...

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Bibliographic Details
Published in:JPhys Energy 2021-07, Vol.3 (3), p.31502
Main Authors: Irvine, John, Rupp, Jennifer L. M., Liu, Gang, Xu, Xiaoxiang, Haile, Sossina, Qian, Xin, Snyder, Alem, Freer, Robert, Ekren, Dursun, Skinner, Stephen, Celikbilek, Ozden, Chen, Shigang, Tao, Shanwen, Shin, Tae Ho, O’Hayre, Ryan, Huang, Jake, Duan, Chuancheng, Papac, Meagan, Li, Shuangbin, Celorrio, Veronica, Russell, Andrea, Hayden, Brian, Nolan, Hugo, Huang, Xiubing, Wang, Ge, Metcalfe, Ian, Neagu, Dragos, Martín, Susana Garcia
Format: Article
Language:English
Subjects:
catalysis
energy
Ferroelectricity
Fuel cells
Magnetic properties
Magnetoresistance
Magnetoresistivity
Perovskites
Physical properties
solar fuels
Solar heating
Superconductivity
thermoelectrics
water splitting
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Summary:Abstract Inorganic perovskites exhibit many important physical properties such as ferroelectricity, magnetoresistance and superconductivity as well their importance as energy materials. Many of the most important energy materials are inorganic perovskites and find application in batteries, fuel cells, photocatalysts, catalysis, thermoelectrics and solar thermal. In all these applications, perovskite oxides, or their derivatives offer highly competitive performance, often state of the art and so tend to dominate research into energy material. In the following sections, we review these functionalities in turn seeking to facilitate the interchange of ideas between domains. The potential for improvement is explored and we highlight the importance of both detailed modelling and in situ and operando studies in taking these materials forward.
ISSN:2515-7655
2515-7655
DOI:10.1088/2515-7655/abff18