Ternary Superhydrides Under Pressure of Anderson's Theorem: Near-Record Superconductivity in (La, Sc)H12

Dmitrii Vladimirovich Semenok; Ivan Alexandrovich Troyan; Di Zhou; Andrei Vladimirovich Sadakov; Kirill Sergeevich Pervakov; Oleg Alexandrovich Sobolevskiy; Anna Gennadievna Ivanova; Michele Galasso; Frederico Gil Alabarse; Wuhao Chen; Chuanying Xi; Toni Helm; Sven Luther; Vladimir Moiseevich Pudalov; Viktor Viktorovich Struzhkin

doi:10.1002/adfm.202504748

Ternary Superhydrides Under Pressure of Anderson's Theorem: Near-Record Superconductivity in (La, Sc)H12

Dmitrii Vladimirovich Semenok
, Ivan Alexandrovich Troyan
, Di Zhou
, Andrei Vladimirovich Sadakov
, Kirill Sergeevich Pervakov
, Oleg Alexandrovich Sobolevskiy
, Anna Gennadievna Ivanova
, Michele Galasso
, Frederico Gil Alabarse
, Wuhao Chen
, Chuanying Xi
, Toni Helm
, Sven Luther
, Vladimir Moiseevich Pudalov
, Viktor Viktorovich Struzhkin

Institute of Solid State Physics, University of Latvia

Shubnikov Institute of Crystallography, Russian Academy of Sciences
Chinese Academy of Sciences
Helmholtz-Zentrum Dresden-Rossendorf

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Lanthanum-hydrogen system and its derivatives hold significant promise for achieving room-temperature superconductivity. In this study, the formation of ternary lanthanum-scandium superhydrides is examined at pressures up to 220 GPa. The primary product of the LaSc alloy's reaction with hydrogen is a newly discovered cubic (La,Sc)H₁₂, demonstrating a clear superconducting transition in all six channels of the van der Pauw-contact scheme at 244–248 K. In this compound with an unusually large unit-cell volume, virtually no magnetoresistance is observed in fields up to 68 Tesla. Synthesized samples of (La,Sc)H₁₂ demonstrate pronounced superconducting diode and SQUID-like effects at a record high temperature of 233 K, which opens up prospects for the use of superhydrides in compact electronics. Furthermore, the analysis reveals the possible formation of a lower hexagonal polyhydride (La,Sc)H_6-7, which can potentially account for the drop in electrical resistance observed near 274 K. This anomaly between 265–290 K also appears in the radio-frequency transmission measurements and may be of a superconducting nature.

Original language	English
Article number	2504748
Pages (from-to)	1-12
Journal	Advanced Functional Materials
Volume	35
Issue number	42
DOIs	https://doi.org/10.1002/adfm.202504748
Publication status	Published - 15 Oct 2025

Keywords

high-pressure
SQUID hydride
superconductivity
superhydride

OECD Field of Science

1.3 Physical Sciences

Access to Document

10.1002/adfm.202504748

Cite this

Semenok, D. V., Troyan, I. A., Zhou, D., Sadakov, A. V., Pervakov, K. S., Sobolevskiy, O. A., Ivanova, A. G., Galasso, M., Alabarse, F. G., Chen, W., Xi, C., Helm, T., Luther, S., Pudalov, V. M., & Struzhkin, V. V. (2025). Ternary Superhydrides Under Pressure of Anderson's Theorem: Near-Record Superconductivity in (La, Sc)H12. Advanced Functional Materials, 35(42), 1-12. Article 2504748. https://doi.org/10.1002/adfm.202504748

@article{8a503d566ab648fcb16138f9e3ddb0a8,

title = "Ternary Superhydrides Under Pressure of Anderson's Theorem: Near-Record Superconductivity in (La, Sc)H12",

abstract = "Lanthanum-hydrogen system and its derivatives hold significant promise for achieving room-temperature superconductivity. In this study, the formation of ternary lanthanum-scandium superhydrides is examined at pressures up to 220 GPa. The primary product of the LaSc alloy's reaction with hydrogen is a newly discovered cubic (La,Sc)H12, demonstrating a clear superconducting transition in all six channels of the van der Pauw-contact scheme at 244–248 K. In this compound with an unusually large unit-cell volume, virtually no magnetoresistance is observed in fields up to 68 Tesla. Synthesized samples of (La,Sc)H12 demonstrate pronounced superconducting diode and SQUID-like effects at a record high temperature of 233 K, which opens up prospects for the use of superhydrides in compact electronics. Furthermore, the analysis reveals the possible formation of a lower hexagonal polyhydride (La,Sc)H6-7, which can potentially account for the drop in electrical resistance observed near 274 K. This anomaly between 265–290 K also appears in the radio-frequency transmission measurements and may be of a superconducting nature.",

keywords = "high-pressure, SQUID hydride, superconductivity, superhydride",

author = "Semenok, \{Dmitrii Vladimirovich\} and Troyan, \{Ivan Alexandrovich\} and Di Zhou and Sadakov, \{Andrei Vladimirovich\} and Pervakov, \{Kirill Sergeevich\} and Sobolevskiy, \{Oleg Alexandrovich\} and Ivanova, \{Anna Gennadievna\} and Michele Galasso and Alabarse, \{Frederico Gil\} and Wuhao Chen and Chuanying Xi and Toni Helm and Sven Luther and Pudalov, \{Vladimir Moiseevich\} and Struzhkin, \{Viktor Viktorovich\}",

note = "Publisher Copyright: {\textcopyright} 2025 Wiley-VCH GmbH.",

year = "2025",

month = oct,

day = "15",

doi = "10.1002/adfm.202504748",

language = "English",

volume = "35",

pages = "1--12",

journal = "Advanced Functional Materials",

issn = "1616-301X",

publisher = "John Wiley and Sons Inc",

number = "42",

}

Semenok, DV, Troyan, IA, Zhou, D, Sadakov, AV, Pervakov, KS, Sobolevskiy, OA, Ivanova, AG, Galasso, M, Alabarse, FG, Chen, W, Xi, C, Helm, T, Luther, S, Pudalov, VM & Struzhkin, VV 2025, 'Ternary Superhydrides Under Pressure of Anderson's Theorem: Near-Record Superconductivity in (La, Sc)H12', Advanced Functional Materials, vol. 35, no. 42, 2504748, pp. 1-12. https://doi.org/10.1002/adfm.202504748

TY - JOUR

T1 - Ternary Superhydrides Under Pressure of Anderson's Theorem: Near-Record Superconductivity in (La, Sc)H12

AU - Semenok, Dmitrii Vladimirovich

AU - Troyan, Ivan Alexandrovich

AU - Zhou, Di

AU - Sadakov, Andrei Vladimirovich

AU - Pervakov, Kirill Sergeevich

AU - Sobolevskiy, Oleg Alexandrovich

AU - Ivanova, Anna Gennadievna

AU - Galasso, Michele

AU - Alabarse, Frederico Gil

AU - Chen, Wuhao

AU - Xi, Chuanying

AU - Helm, Toni

AU - Luther, Sven

AU - Pudalov, Vladimir Moiseevich

AU - Struzhkin, Viktor Viktorovich

PY - 2025/10/15

Y1 - 2025/10/15

N2 - Lanthanum-hydrogen system and its derivatives hold significant promise for achieving room-temperature superconductivity. In this study, the formation of ternary lanthanum-scandium superhydrides is examined at pressures up to 220 GPa. The primary product of the LaSc alloy's reaction with hydrogen is a newly discovered cubic (La,Sc)H12, demonstrating a clear superconducting transition in all six channels of the van der Pauw-contact scheme at 244–248 K. In this compound with an unusually large unit-cell volume, virtually no magnetoresistance is observed in fields up to 68 Tesla. Synthesized samples of (La,Sc)H12 demonstrate pronounced superconducting diode and SQUID-like effects at a record high temperature of 233 K, which opens up prospects for the use of superhydrides in compact electronics. Furthermore, the analysis reveals the possible formation of a lower hexagonal polyhydride (La,Sc)H6-7, which can potentially account for the drop in electrical resistance observed near 274 K. This anomaly between 265–290 K also appears in the radio-frequency transmission measurements and may be of a superconducting nature.

AB - Lanthanum-hydrogen system and its derivatives hold significant promise for achieving room-temperature superconductivity. In this study, the formation of ternary lanthanum-scandium superhydrides is examined at pressures up to 220 GPa. The primary product of the LaSc alloy's reaction with hydrogen is a newly discovered cubic (La,Sc)H12, demonstrating a clear superconducting transition in all six channels of the van der Pauw-contact scheme at 244–248 K. In this compound with an unusually large unit-cell volume, virtually no magnetoresistance is observed in fields up to 68 Tesla. Synthesized samples of (La,Sc)H12 demonstrate pronounced superconducting diode and SQUID-like effects at a record high temperature of 233 K, which opens up prospects for the use of superhydrides in compact electronics. Furthermore, the analysis reveals the possible formation of a lower hexagonal polyhydride (La,Sc)H6-7, which can potentially account for the drop in electrical resistance observed near 274 K. This anomaly between 265–290 K also appears in the radio-frequency transmission measurements and may be of a superconducting nature.

KW - high-pressure

KW - SQUID hydride

KW - superconductivity

KW - superhydride

UR - https://advanced.onlinelibrary.wiley.com/doi/epdf/10.1002/adfm.202504748

UR - https://www.scopus.com/pages/publications/105012199755

U2 - 10.1002/adfm.202504748

DO - 10.1002/adfm.202504748

M3 - Article

SN - 1616-301X

VL - 35

SP - 1

EP - 12

JO - Advanced Functional Materials

JF - Advanced Functional Materials

IS - 42

M1 - 2504748

ER -

Ternary Superhydrides Under Pressure of Anderson's Theorem: Near-Record Superconductivity in (La, Sc)H12

Abstract

Keywords

OECD Field of Science

Access to Document

Other files and links

Fingerprint

Cite this