Roadmap on exsolution for energy applications

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Roadmap on exsolution for energy applications. / Neagu, Dragos; Irvine, John T. S.; Wang, Jiayue et al.
In: JPhys Energy, Vol. 5.2023, No. 3, 031501, 20.06.2023.

Research output: Contribution to journalArticleResearchpeer-review

Harvard

Neagu, D, Irvine, JTS, Wang, J, Yildiz, B, Opitz, AK, Fleig, J, Wang, Y, Liu, J, Shen, L, Ciucci, F, Rosen, BA, Xiao, Y, Xie, K, Yang, G, Shao, Z, Zhang, Y, Reinke, J, Schmauss, TA, Barnett, SA, Maring, R, Kyriakou, V, Mushtaq, U, Tsampas, MN, Kim, Y, O’Hayre, R, Carrillo, AJ, Ruh, T, Lindenthal, L, Schrenk, F, Rameshan, C, Papaioannou, EI, Kousi, K, Metcalfe, IS, Xu, X & Liu, G 2023, 'Roadmap on exsolution for energy applications', JPhys Energy, vol. 5.2023, no. 3, 031501. https://doi.org/10.1088/2515-7655/acd146

APA

Neagu, D., Irvine, J. T. S., Wang, J., Yildiz, B., Opitz, A. K., Fleig, J., Wang, Y., Liu, J., Shen, L., Ciucci, F., Rosen, B. A., Xiao, Y., Xie, K., Yang, G., Shao, Z., Zhang, Y., Reinke, J., Schmauss, T. A., Barnett, S. A., ... Liu, G. (2023). Roadmap on exsolution for energy applications. JPhys Energy, 5.2023(3), Article 031501. https://doi.org/10.1088/2515-7655/acd146

Vancouver

Neagu D, Irvine JTS, Wang J, Yildiz B, Opitz AK, Fleig J et al. Roadmap on exsolution for energy applications. JPhys Energy. 2023 Jun 20;5.2023(3):031501. doi: 10.1088/2515-7655/acd146

Author

Neagu, Dragos ; Irvine, John T. S. ; Wang, Jiayue et al. / Roadmap on exsolution for energy applications. In: JPhys Energy. 2023 ; Vol. 5.2023, No. 3.

Bibtex - Download

@article{80322aaa87bc4cdb88e87a7e99f17c0c,
title = "Roadmap on exsolution for energy applications",
abstract = "Over the last decade, exsolution has emerged as a powerful new method for decorating oxide supports with uniformly dispersed nanoparticles for energy and catalytic applications. Due to their exceptional anchorage, resilience to various degradation mechanisms, as well as numerous ways in which they can be produced, transformed and applied, exsolved nanoparticles have set new standards for nanoparticles in terms of activity, durability and functionality. In conjunction with multifunctional supports such as perovskite oxides, exsolution becomes a powerful platform for the design of advanced energy materials. In the following sections, we review the current status of the exsolution approach, seeking to facilitate transfer of ideas between different fields of application. We also explore future directions of research, particularly noting the multi-scale development required to take the concept forward, from fundamentals through operando studies to pilot scale demonstrations.",
keywords = "catalysis, energy, exsolution, exsolved nanoparticles, oxides",
author = "Dragos Neagu and Irvine, {John T. S.} and Jiayue Wang and Bilge Yildiz and Opitz, {Alexander Karl} and J{\"u}rgen Fleig and Yuhao Wang and Jiapeng Liu and Longyun Shen and Francesco Ciucci and Rosen, {Brian A.} and Yongchun Xiao and Kui Xie and Guangming Yang and Zongping Shao and Yubo Zhang and Jakob Reinke and Schmauss, {Travis A.} and Barnett, {Scott A.} and Roelf Maring and Vasileios Kyriakou and Usman Mushtaq and Tsampas, {Mihalis N.} and Youdong Kim and Ryan O{\textquoteright}Hayre and Carrillo, {Alfonso J.} and Thomas Ruh and Lorenz Lindenthal and Florian Schrenk and Christoph Rameshan and Papaioannou, {Evangelos I.} and Kalliopi Kousi and Metcalfe, {Ian S.} and Xiaoxiang Xu and Gang Liu",
note = "Publisher Copyright: {\textcopyright} 2023 Author(s). Published by IOP Publishing Ltd.",
year = "2023",
month = jun,
day = "20",
doi = "10.1088/2515-7655/acd146",
language = "English",
volume = "5.2023",
journal = "JPhys Energy",
issn = "2515-7655",
publisher = "IOP Publishing Ltd.",
number = "3",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Roadmap on exsolution for energy applications

AU - Neagu, Dragos

AU - Irvine, John T. S.

AU - Wang, Jiayue

AU - Yildiz, Bilge

AU - Opitz, Alexander Karl

AU - Fleig, Jürgen

AU - Wang, Yuhao

AU - Liu, Jiapeng

AU - Shen, Longyun

AU - Ciucci, Francesco

AU - Rosen, Brian A.

AU - Xiao, Yongchun

AU - Xie, Kui

AU - Yang, Guangming

AU - Shao, Zongping

AU - Zhang, Yubo

AU - Reinke, Jakob

AU - Schmauss, Travis A.

AU - Barnett, Scott A.

AU - Maring, Roelf

AU - Kyriakou, Vasileios

AU - Mushtaq, Usman

AU - Tsampas, Mihalis N.

AU - Kim, Youdong

AU - O’Hayre, Ryan

AU - Carrillo, Alfonso J.

AU - Ruh, Thomas

AU - Lindenthal, Lorenz

AU - Schrenk, Florian

AU - Rameshan, Christoph

AU - Papaioannou, Evangelos I.

AU - Kousi, Kalliopi

AU - Metcalfe, Ian S.

AU - Xu, Xiaoxiang

AU - Liu, Gang

N1 - Publisher Copyright: © 2023 Author(s). Published by IOP Publishing Ltd.

PY - 2023/6/20

Y1 - 2023/6/20

N2 - Over the last decade, exsolution has emerged as a powerful new method for decorating oxide supports with uniformly dispersed nanoparticles for energy and catalytic applications. Due to their exceptional anchorage, resilience to various degradation mechanisms, as well as numerous ways in which they can be produced, transformed and applied, exsolved nanoparticles have set new standards for nanoparticles in terms of activity, durability and functionality. In conjunction with multifunctional supports such as perovskite oxides, exsolution becomes a powerful platform for the design of advanced energy materials. In the following sections, we review the current status of the exsolution approach, seeking to facilitate transfer of ideas between different fields of application. We also explore future directions of research, particularly noting the multi-scale development required to take the concept forward, from fundamentals through operando studies to pilot scale demonstrations.

AB - Over the last decade, exsolution has emerged as a powerful new method for decorating oxide supports with uniformly dispersed nanoparticles for energy and catalytic applications. Due to their exceptional anchorage, resilience to various degradation mechanisms, as well as numerous ways in which they can be produced, transformed and applied, exsolved nanoparticles have set new standards for nanoparticles in terms of activity, durability and functionality. In conjunction with multifunctional supports such as perovskite oxides, exsolution becomes a powerful platform for the design of advanced energy materials. In the following sections, we review the current status of the exsolution approach, seeking to facilitate transfer of ideas between different fields of application. We also explore future directions of research, particularly noting the multi-scale development required to take the concept forward, from fundamentals through operando studies to pilot scale demonstrations.

KW - catalysis

KW - energy

KW - exsolution

KW - exsolved nanoparticles

KW - oxides

UR - http://www.scopus.com/inward/record.url?scp=85162693764&partnerID=8YFLogxK

U2 - 10.1088/2515-7655/acd146

DO - 10.1088/2515-7655/acd146

M3 - Article

AN - SCOPUS:85162693764

VL - 5.2023

JO - JPhys Energy

JF - JPhys Energy

SN - 2515-7655

IS - 3

M1 - 031501

ER -

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