LaBeH₈

hydride · fluorite-type

Tc max

110.0 K

Tc ambient

—

arXiv year

2021

Papers

Tc exp.

110.0 K

Tc theo.

192.0 K

Evidence

mixed

Tc max measured at P=80 GPa, polycrystal, resistivity, DOI: 10.1103/PhysRevLett.130.266001

Evidence (14 records from 5 papers)

the flat columns above are aggregates — each line here is one paper's claim

Tc (K)	P (GPa)	Sample	Method	Pairing	Year	Tier	Paper
192.0	100.0	—	—	—	2022	T1	DOI: 10.1103/PhysRevLett.128.047001
191.0	50.0	—	—	—	2021	—	2106.09879
185.0	20.0	—	—	—	2022	T1	DOI: 10.1103/PhysRevLett.128.047001
183.0	20.0	—	—	—	2022	T1	DOI: 10.1103/PhysRevLett.128.047001
158.0	50.0	—	—	—	2025	—	2503.03559
154.0	50.0	—	—	—	2025	—	2503.03559
152.0	50.0	—	—	—	2025	—	2503.03559
141.0	100.0	—	—	—	2025	—	2503.03559
140.0	100.0	—	—	—	2025	—	2503.03559
114.0	80.0	—	—	—	2024	T1	DOI: 10.1103/PhysRevB.109.214506
110.0	80.0	polycrystal	resistivity	—	2023	T1	DOI: 10.1103/PhysRevLett.130.266001
104.0	100.0	polycrystal	resistivity	—	2023	T1	DOI: 10.1103/PhysRevLett.130.266001
100.0	120.0	polycrystal	resistivity	—	2023	T1	DOI: 10.1103/PhysRevLett.130.266001
93.0	130.0	polycrystal	resistivity	—	2023	T1	DOI: 10.1103/PhysRevLett.130.266001

Hydride Tc parameters (72)

independent NER enrichment for pressure, λ, μ*, and ω_log

Formula	Tc (K)	P (GPa)	λ	μ*	ω_log (K)	Method	Year	Paper
LaBeH₈	185.0	20.0	—	—	—	cited	2025	DOI: 10.1103/PhysRevB.111.054517
LaBeH₈	185.0	20.0	—	—	—	DFT	2025	DOI: 10.1103/PhysRevB.111.054517
LaBeH₈	185.0	20.0	—	—	—	cited	2025	DOI: 10.1103/gnq4-b1gr
LaBeH₈	185.0	20.0	—	—	—	cited	2024	DOI: 10.1103/PhysRevB.109.054505
LaBeH₈	185.0	20.0	—	—	—	cited	2024	DOI: 10.1103/PhysRevB.109.054505
LaBeH₈	185.0	20.0	—	—	—	DFT	2024	DOI: 10.1103/PhysRevB.109.224510
LaBeH₈	185.0	20.0	—	—	—	DFT	2022	DOI: 10.1103/PhysRevLett.128.047001
LaBeH₈	183.0	20.0	—	—	—	DFT	2024	DOI: 10.1103/PhysRevB.109.014501
LaBeH₈	183.0	20.0	—	0.10	—	Eliashberg	2022	DOI: 10.1103/PhysRevLett.128.047001
LaBeH₈	160.0	20.0	—	—	—	DFT	2024	2412.18341
LaBeH₈	158.0	20.0	—	—	—	DFT	2022	DOI: 10.1103/PhysRevB.106.104508
LaBeH₈	191.0	50.0	—	—	—	DFT	2026	DOI: 10.1103/9f4v-4bvs
LaBeH₈	191.0	50.0	—	—	—	cited	2025	2512.19901
LaBeH₈	191.0	50.0	—	—	—	cited	2022	2205.11569
LaBeH₈	191.0	50.0	—	—	—	DFT	2021	2106.09879
LaBeH₈	161.0	50.0	—	0.13	—	Allen-Dynes	2025	2503.03559
LaBeH₈	158.0	50.0	—	0.13	—	Eliashberg	2025	2503.03559
LaBeH₈	154.0	50.0	—	0.13	—	Eliashberg	2025	2503.03559
LaBeH₈	152.0	50.0	—	0.13	—	Eliashberg	2025	2503.03559
LaBeH₈	147.0	50.0	—	0.13	—	McMillan-Allen-Dynes	2025	2503.03559
LaBeH₈	100.0	50.0	—	—	—	DFT	2024	DOI: 10.1103/PhysRevB.110.174514
LaBeH₈	120.0	80.0	—	—	—	cited	2025	2506.17456
LaBeH₈	114.0	80.0	1.60	—	—	DFT	2024	DOI: 10.1103/PhysRevB.109.214506
LaBeH₈	110.0	80.0	—	—	—	cited	2026	DOI: 10.1103/mhxb-8yqd
LaBeH₈	110.0	80.0	—	—	—	cited	2026	DOI: 10.1103/rltl-vgzj
LaBeH₈	110.0	80.0	—	—	—	cited	2026	2601.01100
LaBeH₈	110.0	80.0	—	—	—	DFT	2025	2503.07042
LaBeH₈	110.0	80.0	—	—	—	resistivity	2025	DOI: 10.1103/PhysRevB.111.184512
LaBeH₈	110.0	80.0	—	—	—	cited	2025	DOI: 10.1103/2l5v-x76p
LaBeH₈	110.0	80.0	—	—	—	cited	2025	2503.07042
LaBeH₈	110.0	80.0	—	—	—	resistivity	2025	2502.06700
LaBeH₈	110.0	80.0	—	—	—	cited	2025	DOI: 10.1103/hkx1-lytx
LaBeH₈	110.0	80.0	—	—	—	cited	2025	2508.10912
LaBeH₈	110.0	80.0	—	—	—	cited	2025	DOI: 10.1103/PhysRevB.111.224502
LaBeH₈	110.0	80.0	—	—	—	resistivity	2025	DOI: 10.1103/PhysRevB.111.L140501
LaBeH₈	110.0	80.0	—	—	—	cited	2025	2501.14420
LaBeH₈	110.0	80.0	—	—	—	resistivity	2025	2502.16558
LaBeH₈	110.0	80.0	—	—	—	cited	2025	DOI: 10.1103/PhysRevB.111.014510
LaBeH₈	110.0	80.0	—	—	—	resistivity	2025	DOI: 10.1103/PhysRevResearch.7.013049
LaBeH₈	110.0	80.0	—	—	—	resistivity	2024	2412.18341
LaBeH₈	110.0	80.0	—	—	—	resistivity	2024	DOI: 10.1103/PhysRevB.109.224505
LaBeH₈	110.0	80.0	—	—	—	cited	2024	DOI: 10.1103/PhysRevB.109.174507
LaBeH₈	110.0	80.0	—	—	—	resistivity	2024	DOI: 10.1103/PhysRevB.110.144523
LaBeH₈	110.0	80.0	—	—	—	cited	2024	DOI: 10.1103/PhysRevB.110.064105
LaBeH₈	110.0	80.0	—	—	—	resistivity	2024	DOI: 10.1103/PhysRevB.109.014501
LaBeH₈	110.0	80.0	—	—	—	cited	2024	DOI: 10.1103/PhysRevB.110.214504
LaBeH₈	110.0	80.0	—	—	—	cited	2024	2411.19014
LaBeH₈	110.0	80.0	—	—	—	resistivity	2024	DOI: 10.1103/PhysRevB.109.214506
LaBeH₈	110.0	80.0	—	—	—	cited	2024	2412.15488
LaBeH₈	110.0	80.0	—	—	—	resistivity	2023	DOI: 10.1103/PhysRevLett.130.266001
LaBeH₈	110.0	80.0	—	—	—	resistivity	2023	DOI: 10.1103/PhysRevMaterials.7.L101801
LaBeH₈	110.0	80.0	—	—	—	cited	2023	DOI: 10.1103/PhysRevMaterials.7.L101801
LaBeH₈	110.0	80.0	—	—	—	cited	2023	2311.01656
LaBeH₈	110.0	80.0	—	—	—	experimental	2023	2401.00088
LaBeH₈	110.0	80.0	—	—	—	resistivity	2023	2401.00088
LaBeH₈	110.0	80.0	—	—	—	cited	2023	2401.00088
LaBeH₈	110.0	80.0	—	—	—	resistivity	2023	2311.01656
LaBeH₈	185.0	98.0	—	—	—	cited	2026	DOI: 10.1103/mhxb-8yqd
LaBeH₈	192.0	100.0	—	0.10	—	Eliashberg	2022	DOI: 10.1103/PhysRevLett.128.047001
LaBeH₈	179.0	100.0	—	—	—	DFT	2023	DOI: 10.1103/PhysRevLett.130.266001
LaBeH₈	141.0	100.0	—	0.16	—	Eliashberg	2025	2503.03559
LaBeH₈	140.0	100.0	—	0.16	—	Eliashberg	2025	2503.03559
LaBeH₈	139.0	100.0	—	0.16	—	Allen-Dynes	2025	2503.03559
LaBeH₈	130.0	100.0	—	0.16	—	McMillan-Allen-Dynes	2025	2503.03559
LaBeH₈	111.5	100.0	—	—	—	DFT	2023	DOI: 10.1103/PhysRevLett.130.266001
LaBeH₈	110.0	100.0	—	—	—	cited	2025	DOI: 10.1103/PhysRevB.111.184512
LaBeH₈	104.0	100.0	—	—	—	cited	2025	2503.03559
LaBeH₈	104.0	100.0	—	—	—	resistivity	2023	DOI: 10.1103/PhysRevLett.130.266001
LaBeH₈	108.0	105.0	—	—	—	resistivity	2023	DOI: 10.1103/PhysRevLett.130.266001
LaBeH₈	110.0	111.5	—	—	—	resistivity	2026	DOI: 10.1103/cfph-2zv5
LaBeH₈	100.0	120.0	—	—	—	resistivity	2023	DOI: 10.1103/PhysRevLett.130.266001
LaBeH₈	93.0	130.0	—	—	—	resistivity	2023	DOI: 10.1103/PhysRevLett.130.266001

Structure

Crystal structure: fluorite-type
Space group: Fm-3m
Lattice a (Å): 5.360

Superconducting parameters

Hc2: 33.5 T (0 K, GL model)
λ_eph (e–ph coupling): 1.60

LaBeH8

Evidence (14 records from 5 papers)

Hydride Tc parameters (72)

Structure

Superconducting parameters

LaBeH₈