We critically reexamine the superconducting properties of rock-salt transition-metal carbides (TMCs), often regarded as textbook conventional superconductors, combining first-principles electron-phonon calculations with variable-composition evolutionary structure prediction. Studying superconducting trends across the entire transition-metal series, we find that, when the rock-salt stoichiometric phase is dynamically or thermodynamically unstable, carbon-vacant structures identified through unbiased structure prediction permit to reconcile theoretical calculations with experimental trends. Our integrated use of structure prediction and electron-phonon calculations defines a general framework for realistic modeling of superconductors shaped by non-equilibrium synthesis routes and defect tolerance.
Vacancy-controlled superconductivity in rock-salt carbides. Towards predictive modelling of real-world superconductors / Di Cataldo, Simone; Cursio, William; Boeri, Lilia. - In: NPJ COMPUTATIONAL MATERIALS. - ISSN 2057-3960. - 12:(2026), pp. 1-10. [10.1038/s41524-025-01943-5]
Vacancy-controlled superconductivity in rock-salt carbides. Towards predictive modelling of real-world superconductors
Simone di Cataldo
Investigation
;William CursioInvestigation
;Lilia BoeriSupervision
2026
Abstract
We critically reexamine the superconducting properties of rock-salt transition-metal carbides (TMCs), often regarded as textbook conventional superconductors, combining first-principles electron-phonon calculations with variable-composition evolutionary structure prediction. Studying superconducting trends across the entire transition-metal series, we find that, when the rock-salt stoichiometric phase is dynamically or thermodynamically unstable, carbon-vacant structures identified through unbiased structure prediction permit to reconcile theoretical calculations with experimental trends. Our integrated use of structure prediction and electron-phonon calculations defines a general framework for realistic modeling of superconductors shaped by non-equilibrium synthesis routes and defect tolerance.| File | Dimensione | Formato | |
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