The 2021 Room-Temperature Superconductivity Roadmap

Lilia, B.; Hennig, R.; Hirschfeld, P.; Profeta, G.; Sanna, A.; Zurek, E.; Pickett, W. E.; Amsler, M.; Dias, R.; Eremets, M. I.; Heil, C.; Hemley, R. J.; Liu, H.; Ma, Y.; Pierleoni, C.; Kolmogorov, A. N.; Rybin, N.; Novoselov, D.; Anisimov, V.; Oganov, A. R.; Pickard, C. J.; Bi, T.; Arita, R.; Errea, I.; Pellegrini, C.; Requist, R.; Gross, E. K. U.; Margine, E. R.; Xie, S. R.; Quan, Y.; Hire, A.; Fanfarillo, L.; Stewart, G. R.; Hamlin, J. J.; Stanev, V.; Gonnelli, R. S.; Piatti, E.; Romanin, D.; Daghero, D.; Valenti, R.

doi:10.1088/1361-648X/ac2864

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Поле DC	Значение	Язык
dc.contributor.author	Lilia, B.	en
dc.contributor.author	Hennig, R.	en
dc.contributor.author	Hirschfeld, P.	en
dc.contributor.author	Profeta, G.	en
dc.contributor.author	Sanna, A.	en
dc.contributor.author	Zurek, E.	en
dc.contributor.author	Pickett, W. E.	en
dc.contributor.author	Amsler, M.	en
dc.contributor.author	Dias, R.	en
dc.contributor.author	Eremets, M. I.	en
dc.contributor.author	Heil, C.	en
dc.contributor.author	Hemley, R. J.	en
dc.contributor.author	Liu, H.	en
dc.contributor.author	Ma, Y.	en
dc.contributor.author	Pierleoni, C.	en
dc.contributor.author	Kolmogorov, A. N.	en
dc.contributor.author	Rybin, N.	en
dc.contributor.author	Novoselov, D.	en
dc.contributor.author	Anisimov, V.	en
dc.contributor.author	Oganov, A. R.	en
dc.contributor.author	Pickard, C. J.	en
dc.contributor.author	Bi, T.	en
dc.contributor.author	Arita, R.	en
dc.contributor.author	Errea, I.	en
dc.contributor.author	Pellegrini, C.	en
dc.contributor.author	Requist, R.	en
dc.contributor.author	Gross, E. K. U.	en
dc.contributor.author	Margine, E. R.	en
dc.contributor.author	Xie, S. R.	en
dc.contributor.author	Quan, Y.	en
dc.contributor.author	Hire, A.	en
dc.contributor.author	Fanfarillo, L.	en
dc.contributor.author	Stewart, G. R.	en
dc.contributor.author	Hamlin, J. J.	en
dc.contributor.author	Stanev, V.	en
dc.contributor.author	Gonnelli, R. S.	en
dc.contributor.author	Piatti, E.	en
dc.contributor.author	Romanin, D.	en
dc.contributor.author	Daghero, D.	en
dc.contributor.author	Valenti, R.	en
dc.date.accessioned	2022-05-12T08:27:00Z	-
dc.date.available	2022-05-12T08:27:00Z	-
dc.date.issued	2022	-
dc.identifier.citation	The 2021 Room-Temperature Superconductivity Roadmap / B. Lilia, R. Hennig, P. Hirschfeld et al. // Journal of Physics Condensed Matter. — 2022. — Vol. 34. — Iss. 18. — 183002.	en
dc.identifier.issn	0953-8984	-
dc.identifier.other	All Open Access, Hybrid Gold, Green	3
dc.identifier.uri	http://elar.urfu.ru/handle/10995/111998	-
dc.description.abstract	Designing materials with advanced functionalities is the main focus of contemporary solid-state physics and chemistry. Research efforts worldwide are funneled into a few high-end goals, one of the oldest, and most fascinating of which is the search for an ambient temperature superconductor (A-SC). The reason is clear: superconductivity at ambient conditions implies being able to handle, measure and access a single, coherent, macroscopic quantum mechanical state without the limitations associated with cryogenics and pressurization. This would not only open exciting avenues for fundamental research, but also pave the road for a wide range of technological applications, affecting strategic areas such as energy conservation and climate change. In this roadmap we have collected contributions from many of the main actors working on superconductivity, and asked them to share their personal viewpoint on the field. The hope is that this article will serve not only as an instantaneous picture of the status of research, but also as a true roadmap defining the main long-term theoretical and experimental challenges that lie ahead. Interestingly, although the current research in superconductor design is dominated by conventional (phonon-mediated) superconductors, there seems to be a widespread consensus that achieving A-SC may require different pairing mechanisms. In memoriam, to Neil Ashcroft, who inspired us all. © 2022 The Author(s). Published by IOP Publishing Ltd.	en
dc.description.sponsorship	Yundi Quan has provided many useful discussions on this topic, and assistance with preparation of the figures in this paper. Giustino’s review [12] contains a wealth of references on this topic. This work was supported by US National Science Foundation Grant DMR 1607139. 3. We acknowledge Ashkan Salamat, Elliot Snider, Nathan Dasenbrock-Gammon, Raymond McBride, Mathew Debessai for useful discussions. This was supported by NSF, Grant No. DMR-1809649, and by the DOE Stockpile Stewardship Academic Alliance Program, Grant No. DE-NA0003898.5. CH acknowledges support from the Austrian Science Fund (FWF) Project No. P 32144-N36. 6. This work was supported principally by the US National Science Foundation (DMR-1933622), and by the US Department of Energy (DE-SC0020340 and DE-NA0003975). 7. I would like to thank all my collaborators and friends that contributed to this work: D M Ceperley, M Holzmann, V Gorelov, G Rillo, Y Yubo, M A Morales. This work was supported by ANR-France under the program ‘Accueil de Chercheurs de Haut Niveau 2015’ project: HyLightExtreme. 8. MA acknowledges support from the Swiss National Science Foundation (Project P4P4P2-180669). 9. This work was supported by the National Natural Science Foundation of China (Grant Nos. 52090024 and 12074138), the Science Challenge Project (Grant No. TZ2016001), the Fundamental Research Funds for the Central Universities (Jilin University, JLU), the Program for JLU Science and Technology Innovative Research Team (JLUSTIRT), and the Strategic Priority Research Program of the Chinese Academy of Sciences (Grant No. XDB33000000) 10. ANK acknowledges the support through the NSF Award No. DMR-1821815. 11. We thank the Russian Science Foundation (Grant 19-72-30043) for support. 12. I thank Alice Shipley and Michael Hutcheon for their careful reading of the manuscript and insightful comments. This work has been funded by the EPSRC over many years (Projects EP/G007489/1 and EP/P022596/1), and through a Royal Society Wolfson Research Merit Award. 13. We acknowledge the National Science Foundation (DMR-1827815) for financial support. 14. The author acknowledges the financial support by JSPS KAK-ENHI Grant No. 19H05825. 15. This research was supported by the European Research Council (ERC) under the European Union’s Horizon 2020 Research and Innovation Program (Grant Agreement No. 802533). 16. We acknowledge financial support by the European Research Council Advanced Grant FACT (ERC-2017-AdG-788890). AS acknowledges hospitality of the Physics Department of La Sapienza, under the program ‘Professori Visitatori 2020’. 17. ERM acknowledges support from the National Science Foundation (Award No. OAC-1740263). 18. The work was supported by the US Department of Energy Basic Energy Sciences under Contract No. DE-SC-0020385. 19. We thank G Profeta and G Lamura for fruitful scientific discussions. We acknowledge funding from the MIUR PRIN-2017 program (Grant No. 2017Z8TS5B—‘Tuning and understanding Quantum phases in 2D materials—Quantum2D’). 20. We thank G Profeta and G Lamura for fruitful scientific discussions. We acknowledge funding from the MIUR PRIN-2017program (Grant No. 2017Z8TS5B—‘Tuning and understanding Quantum phases in 2D materials—Quantum2D’). 21. We acknowledge financial support by the Deutsche Forschungs-Gemeinschaft through Grant (DFG) for funding through TRR 288–422213477 (B05). This research was supported in part by the National Science Foundation under Grant No. NSF PHY-1748958.	en
dc.format.mimetype	application/pdf	en
dc.language.iso	en	en
dc.publisher	IOP Publishing Ltd	en1
dc.publisher	IOP Publishing	en
dc.relation	info:eu-repo/grantAgreement/RSF//19-72-30043	en
dc.rights	info:eu-repo/semantics/openAccess	en
dc.source	J Phys Condens Matter	2
dc.source	Journal of Physics Condensed Matter	en
dc.subject	CRYSTAL STRUCTURE PREDICTION	en
dc.subject	ELECTRON-PHONON INTERACTION	en
dc.subject	HYDRIDES	en
dc.subject	NOVEL SUPERCONDUCTORS	en
dc.subject	SUPERCONDUCTIVITY	en
dc.subject	SUPERCONDUCTOR	en
dc.subject	CLIMATE CHANGE	en
dc.subject	CRYSTAL STRUCTURE	en
dc.subject	QUANTUM THEORY	en
dc.subject	AMBIENT CONDITIONS	en
dc.subject	CRYSTAL STRUCTURE PREDICTION	en
dc.subject	MACROSCOPIC QUANTUM	en
dc.subject	NOVEL SUPERCONDUCTOR	en
dc.subject	RESEARCH EFFORTS	en
dc.subject	ROADMAP	en
dc.subject	SOLID STATE CHEMISTRY	en
dc.subject	SOLID-STATE PHYSICS	en
dc.subject	SUPERCONDUCTOR	en
dc.subject	TEMPERATURE SUPERCONDUCTORS	en
dc.subject	ELECTRON-PHONON INTERACTIONS	en
dc.title	The 2021 Room-Temperature Superconductivity Roadmap	en
dc.type	Review	en
dc.type	info:eu-repo/semantics/review	en
dc.type	info:eu-repo/semantics/publishedVersion	en
dc.identifier.doi	10.1088/1361-648X/ac2864	-
dc.identifier.scopus	85125552784	-
local.contributor.employee	Lilia, B., Physics Department, Sapienza University, Enrico Fermi Research Center, Rome, Italy; Hennig, R., Deparment of Material Science and Engineering and Quantum Theory Project, University of Florida, Gainesville, 32611, United States; Hirschfeld, P., Department of Physics, University of Florida, Gainesville, FL 32611, United States; Profeta, G., University of l'Aquila, Italy; Sanna, A., Max Planck Institute of Microstructure Physics, Halle, Germany; Zurek, E., University at Buffalo, SUNY, United States; Pickett, W.E., University of California Davis, United States; Amsler, M., Department of Chemistry and Biochemistry, University of Bern, Freiestrasse 3, Bern, CH-3012, Switzerland, Department of Materials Science and Engineering, Cornell University, Ithaca, NY 14853, United States; Dias, R., University of Rochester, United States; Eremets, M.I., Max Planck Institute for Chemistry, Mainz, Germany; Heil, C., Graz University of Technology, Austria; Hemley, R.J., University of Illinois at Chicago, United States; Liu, H., Jilin University, China; Ma, Y., Jilin University, China; Pierleoni, C., Department of Physics, University of Florida, Gainesville, FL 32611, United States; Kolmogorov, A.N., Binghamton University, United States; Rybin, N., Binghamton University, United States; Novoselov, D., Ural Federal University, Yekaterinburg, Russian Federation; Anisimov, V., Ural Federal University, Yekaterinburg, Russian Federation; Oganov, A.R., Skolkovo Institute of Science and Technology, Russian Federation; Pickard, C.J., Cambridge University, United Kingdom; Bi, T., University at Buffalo, SUNY, United States; Arita, R., University of Tokyo, Japan, RIKEN, Japan; Errea, I., University of the Basque Country, Spain; Pellegrini, C., University of Perugia, Italy; Requist, R., Max Planck Institute of Microstructure Physics, Halle, Germany, Hebrew University of Jerusalem, Israel; Gross, E.K.U., Max Planck Institute of Microstructure Physics, Halle, Germany, Hebrew University of Jerusalem, Israel; Margine, E.R., Binghamton University, United States; Xie, S.R., Department of Physics, University of Florida, Gainesville, FL 32611, United States; Quan, Y., Department of Physics, University of Florida, Gainesville, FL 32611, United States; Hire, A., Department of Physics, University of Florida, Gainesville, FL 32611, United States; Fanfarillo, L., Department of Physics, University of Florida, Gainesville, FL 32611, United States, Scuola Internazionale Superiore di Studi Avanzati (SISSA), Via Bonomea 265, Trieste, 34136, Italy; Stewart, G.R., Department of Physics, University of Florida, Gainesville, FL 32611, United States; Hamlin, J.J., Department of Physics, University of Florida, Gainesville, FL 32611, United States; Stanev, V., University of Maryland, United States; Gonnelli, R.S., Politecnico di Torino, Italy; Piatti, E., Politecnico di Torino, Italy; Romanin, D., Sorbonne Universite, France; Daghero, D., Politecnico di Torino, Italy; Valenti, R., Goethe University Frankfurt, Germany	en
local.issue	18	-
local.volume	34	-
dc.identifier.wos	000763080200001	-
local.contributor.department	Physics Department, Sapienza University, Enrico Fermi Research Center, Rome, Italy; Deparment of Material Science and Engineering and Quantum Theory Project, University of Florida, Gainesville, 32611, United States; Department of Physics, University of Florida, Gainesville, FL 32611, United States; University of l'Aquila, Italy; Max Planck Institute of Microstructure Physics, Halle, Germany; University at Buffalo, SUNY, United States; University of California Davis, United States; Department of Chemistry and Biochemistry, University of Bern, Freiestrasse 3, Bern, CH-3012, Switzerland; Department of Materials Science and Engineering, Cornell University, Ithaca, NY 14853, United States; University of Rochester, United States; Max Planck Institute for Chemistry, Mainz, Germany; Graz University of Technology, Austria; University of Illinois at Chicago, United States; Jilin University, China; Binghamton University, United States; Skolkovo Institute of Science and Technology, Russian Federation; Ural Federal University, Yekaterinburg, Russian Federation; Cambridge University, United Kingdom; University of Tokyo, Japan; RIKEN, Japan; University of the Basque Country, Spain; University of Perugia, Italy; Hebrew University of Jerusalem, Israel; Scuola Internazionale Superiore di Studi Avanzati (SISSA), Via Bonomea 265, Trieste, 34136, Italy; University of Maryland, United States; Politecnico di Torino, Italy; Sorbonne Universite, France; Goethe University Frankfurt, Germany	en
local.identifier.pure	29721741	-
local.description.order	183002	-
local.identifier.eid	2-s2.0-85125552784	-
local.fund.cordis	H2020: 802533	-
local.fund.nsf	1607139	-
local.fund.nsf	1809649	-
local.fund.nsf	1933622	-
local.fund.nsf	1827815	-
local.fund.nsf	1821815	-
local.fund.rsf	19-72-30043	-
local.identifier.wos	WOS:000763080200001	-
local.identifier.pmid	34544070	-
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