Roadmap on inorganic perovskites for energy applications

John Irvine; Jennifer L.M. Rupp; Gang Liu; Xiaoxiang Xu; Sossina Haile; Xin Qian; Alem Snyder; Robert Freer; Dursun Ekren; Stephen Skinner; Ozden Celikbilek; Shigang Chen; Shanwen Tao; Tae Ho Shin; Ryan O'Hayre; Jake Huang; Chuancheng Duan; Meagan Papac; Shuangbin Li; Veronica Celorrio; Andrea Russell; Brian Hayden; Hugo Nolan; Xiubing Huang; Ge Wang; Ian Metcalfe; Dragos Neagu; Susana Garcia Martín

doi:10.1088/2515-7655/abff18

Roadmap on inorganic perovskites for energy applications

John Irvine, Jennifer L.M. Rupp, Gang Liu, Xiaoxiang Xu, Sossina Haile, Xin Qian, Alem Snyder, Robert Freer, Dursun Ekren, Stephen Skinner, Ozden Celikbilek, Shigang Chen, Shanwen Tao, Tae Ho Shin, Ryan O'Hayre, Jake Huang, Chuancheng Duan, Meagan Papac, Shuangbin Li, Veronica CelorrioAndrea Russell, Brian Hayden, Hugo Nolan, Xiubing Huang, Ge Wang, Ian Metcalfe, Dragos Neagu, Susana Garcia Martín

Research output: Contribution to journal › Review article › peer-review

67 Scopus citations

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.

Original language	English
Article number	031502
Journal	JPhys Energy
Volume	3
Issue number	3
DOIs	https://doi.org/10.1088/2515-7655/abff18
State	Published - Jul 2021
Externally published	Yes

Keywords

Catalysis
Energy
Fuel cells
Perovskites
Solar fuels
Thermoelectrics
Water splitting

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1088/2515-7655/abff18

Cite this

Irvine, J., Rupp, J. L. M., Liu, G., Xu, X., Haile, S., Qian, X., Snyder, A., Freer, R., Ekren, D., Skinner, S., Celikbilek, O., Chen, S., Tao, S., Shin, T. H., O'Hayre, R., Huang, J., Duan, C., Papac, M., Li, S., ... Martín, S. G. (2021). Roadmap on inorganic perovskites for energy applications. JPhys Energy, 3(3), Article 031502. https://doi.org/10.1088/2515-7655/abff18

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title = "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 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.",

keywords = "Catalysis, Energy, Fuel cells, Perovskites, Solar fuels, Thermoelectrics, Water splitting",

author = "John Irvine and Rupp, {Jennifer L.M.} and Gang Liu and Xiaoxiang Xu and Sossina Haile and Xin Qian and Alem Snyder and Robert Freer and Dursun Ekren and Stephen Skinner and Ozden Celikbilek and Shigang Chen and Shanwen Tao and Shin, {Tae Ho} and Ryan O'Hayre and Jake Huang and Chuancheng Duan and Meagan Papac and Shuangbin Li and Veronica Celorrio and Andrea Russell and Brian Hayden and Hugo Nolan and Xiubing Huang and Ge Wang and Ian Metcalfe and Dragos Neagu and Mart{\'i}n, {Susana Garcia}",

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year = "2021",

month = jul,

doi = "10.1088/2515-7655/abff18",

language = "English",

volume = "3",

journal = "JPhys Energy",

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Irvine, J, Rupp, JLM, Liu, G, Xu, X, Haile, S, Qian, X, Snyder, A, Freer, R, Ekren, D, Skinner, S, Celikbilek, O, Chen, S, Tao, S, Shin, TH, O'Hayre, R, Huang, J, Duan, C, Papac, M, Li, S, Celorrio, V, Russell, A, Hayden, B, Nolan, H, Huang, X, Wang, G, Metcalfe, I, Neagu, D & Martín, SG 2021, 'Roadmap on inorganic perovskites for energy applications', JPhys Energy, vol. 3, no. 3, 031502. https://doi.org/10.1088/2515-7655/abff18

TY - JOUR

T1 - Roadmap on inorganic perovskites for energy applications

AU - Irvine, John

AU - Rupp, Jennifer L.M.

AU - Liu, Gang

AU - Xu, Xiaoxiang

AU - Haile, Sossina

AU - Qian, Xin

AU - Snyder, Alem

AU - Freer, Robert

AU - Ekren, Dursun

AU - Skinner, Stephen

AU - Celikbilek, Ozden

AU - Chen, Shigang

AU - Tao, Shanwen

AU - Shin, Tae Ho

AU - O'Hayre, Ryan

AU - Huang, Jake

AU - Duan, Chuancheng

AU - Papac, Meagan

AU - Li, Shuangbin

AU - Celorrio, Veronica

AU - Russell, Andrea

AU - Hayden, Brian

AU - Nolan, Hugo

AU - Huang, Xiubing

AU - Wang, Ge

AU - Metcalfe, Ian

AU - Neagu, Dragos

AU - Martín, Susana Garcia

PY - 2021/7

Y1 - 2021/7

N2 - 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.

AB - 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.

KW - Catalysis

KW - Energy

KW - Fuel cells

KW - Perovskites

KW - Solar fuels

KW - Thermoelectrics

KW - Water splitting

UR - http://www.scopus.com/inward/record.url?scp=85112471782&partnerID=8YFLogxK

U2 - 10.1088/2515-7655/abff18

DO - 10.1088/2515-7655/abff18

M3 - Review article

AN - SCOPUS:85112471782

SN - 2515-7655

VL - 3

JO - JPhys Energy

JF - JPhys Energy

IS - 3

M1 - 031502

ER -

Roadmap on inorganic perovskites for energy applications

Abstract

Keywords

UN SDGs

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