An electrochemical cell consisting of cobalt ([Co(PO)]) and vanadium ([V(PO)]) bistrimetaphosphate complexes as catholyte and anolyte species, respectively, was constructed with a cell voltage of 2.4 V and Coulombic efficiencies >90% for up to 100 total cycles. The [Co(PO)] (1) and [V(PO)] (2) complexes have favorable properties for flow-battery applications, including reversible redox chemistry, high stability toward electrochemical cycling, and high solubility in MeCN (1.09 ± 0.02 M, [PPN][1]·2MeCN; 0.77 ± 0.06 M, [PPN][2]·DME). The [PPN][1]·2MeCN and [PPN][2]·DME salts were isolated as crystalline solids in 82 and 68% yields, respectively, and characterized by P NMR, UV/vis, ESI-MS(-), and IR spectroscopy. The [PPN][1]·2MeCN salt was also structurally characterized, crystallizing in the monoclinic P2/c space group. Treatment of 1 with [(p-BrCH)N] allowed for isolation of the one-electron-oxidized spin-crossover (SCO) complex, [Co(PO)] (3), which is the active catholyte species generated during cell charging. The success of the 1-2 cell provides a promising entry point to a potential future class of transition-metal metaphosphate-based all-inorganic non-aqueous redox-flow battery electrolytes.
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