Synthesis and isolation of a triplet bismuthinidene with a quenched magnetic response.
Yue PangNils NöthlingMarkus LeutzschLiqun KangEckhard BillMaurice van GastelEdward J ReijerseRichard GoddardLucas WagnerDaniel J SantaLuciaSerena DeBeerFrank NeeseJosep CornellaPublished in: Science (New York, N.Y.) (2023)
Large Spin-Orbit Coupling (SOC) is an intrinsic property of the heavy-elements that directly affects the electronic structures of the compounds. Herein we report the synthesis and characterization of a mono-coordinate bismuthinidene featuring a rigid and bulky ligand. All magnetic measurements (SQUID, NMR) point to a diamagnetic compound. However, multiconfigurational quantum chemical calculations predict the ground state of the compound to be dominated (76%) by a spin-triplet. The apparent diamagnetism is explained by an extremely large SOC induced positive zero-field-splitting of more than 4500 cm -1 that leaves the M S = 0 magnetic sublevel thermally isolated in the electronic ground state.