Inspired by the synthesis of BC ( = Sr, La) compounds in the bipartite sodalite clathrate structure, density functional theory (DFT) calculations are performed on members of this family containing up to two different metal atoms. A DFT-chemical pressure analysis on systems with = Mg, Ca, Sr, Ba reveals that the size of the metal cation, which can be tuned to stabilize the B-C framework, is key for their ambient-pressure dynamic stability. High-throughput density functional theory calculations on 105 3̅ symmetry BC binary-guest compounds (where , are electropositive metal atoms) find 22 that are dynamically stable at 1 atm, expanding the number of potentially synthesizable phases by 19 (18 metals and 1 insulator). The density of states at the Fermi level and superconducting critical temperature, , can be tuned by changing the average oxidation state of the metal atoms, with being highest for an average valence of +1.5. KPbBC, with an ambient-pressure Eliashberg of 88 K, is predicted to possess the highest among the studied 3̅ BC or 3̅ BC phases, and calculations suggest it may be synthesized using high-pressure high-temperature techniques and then quenched to ambient conditions.
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