Phonon band structure (supercell [2, 2, 2], Δ=0.01 Å); no imaginary modes; min freq = -0.12 THz
Phase diagram of Mn3(FeB)4; e_above_hull: 0.197036 eV/atom; predicted_stable: False
AI-discovered magnetic material: Fe4Mn3B4 (performance score: 0.743) | Space group: 1 (resolved from structure) | AI-generated from scratch using crystal structure prediction | Key properties: Tc: 509K, Ms: 0.11T, Cost: $1/kg, E_hull: 0.197eV/atom, Dynamically stable | Discovered in 5 AI iterations | - Fe4Mn3B4 is a promising magnetic material with a Curie temperature slightly above 500 K and magnetic density above 0.1. - The low cost and dynamic stability enhance its practical appeal. - The primary limitation is its energy above hull, indicating potential challenges in synthesis or long-term stability. - The material's composition and structure yield a balance of magnetic performance and cost-effectiveness.