Photoinitiated Reactivity of a Thiolate-Ligated, Spin-Crossover Nonheme {FeNO}⁷ Complex with Dioxygen

Abstract: The nonheme iron complex, [Fe(NO)(N3PyS)]BF4, is a rare example of an {FeNO}7 species that exhibits spin-crossover behavior. The comparison of X-ray crystallographic studies at low and high temperatures and variable-temperature magnetic susceptibility measurements show that a low-spin S = 1/2 ground state is populated at 0–150 K, while both low-spin S = 1/2 and high-spin S = 3/2 states are populated at T > 150 K. These results explain the observation of two N–O vibrational modes at 1737 and 1649 cm−1 in CD3CN … Show more

“…We previously showed that 1 exhibits spin-crossover behavior, with a low-spin ( S = 1/2) ground state and a thermally accessible high-spin ( S = 3/2) excited state. 8b The low-spin species exhibited a ν (N—O) at 1641 cm −1 at cryogenic temperatures, whereas the high-spin ( S = 3/2) ν (N–O) is observed at 1737 cm −1 above 150 K (CD 3 CN). The RR spectrum of 3 (Figure 4) (λ exc = 647 nm) reveals a prominent, broad band at 1588 cm −1 that shifts to 1518 cm −1 upon substitution with 15 N 18 O; this 70-cm −1 downshift is in agreement with an N-O harmonic oscillator model (calculated Δ ν = −71 cm −1 ), confirming the assignment of this band to the N-O stretch of the new {FeNO} 8 species.…”

“…Reduction of {FeNO} x (x = 6, 7) species to the reactive {FeNO} 8 or {FeN(H)O} 8 states is often invoked as a prerequisite for N 2 O formation in enzymatic systems. There has been considerable interest in the preparation and characterization of {FeNO} 8 /{FeN(H)O} 8 model complexes, 5 but their synthesis is challenging because of their instability.…”

“…There has been considerable interest in the preparation and characterization of {FeNO} 8 /{FeN(H)O} 8 model complexes, 5 but their synthesis is challenging because of their instability. A limited number of nonheme {FeNO} 8 complexes have been characterized, 5a–g and these complexes exhibit low-spin S = 0 ground states, 5a–f with one exception of a high-spin S = 1 complex.…”

“…This complex, [Fe(NO)(N3PyS)]BF 4 ( 1 ), prepared from addition of NO • (g) to the Fe II precursor [Fe II (CH 3 CN)(N3PyS)]BF 4 ( 2 ), 7 was crystallographically characterized and showed excellent reversibility for both one-electron oxidation and reduction processes by cyclic voltammetry. 8 Herein we describe the one-electron reduction chemistry of 1, which leads to the generation of a metastable, nonheme {FeNO} 8 complex, [Fe(NO)(N3PyS)] ( 3 ). This complex spontaneously generates N 2 O upon standing in solution at 23 °C and is the first example, to our knowledge, of a mononuclear {FeNO} 8 species that reacts to give N 2 O. Spectroscopic and computational investigations also indicate that complex 3 exhibits a rare high-spin S = 1 ground state.…”

“…8a The well-behaved reversibility of the redox couple centered at E 1/2 = −1.18 V suggested that the one-electron-reduced {FeNO} 8 species may be stable enough for synthesis and characterization by chemical methods. The one-electron reductant decamethylcobaltocene (CoCp * 2 ) has a redox potential of E 1/2 = −1.91 V (vs Fc + /Fc in CH 3 CN), 9 indicating that it should be thermodynamically competent to reduce the {FeNO} 7 complex.…”

A Nonheme, High-Spin {FeNO}⁸ Complex that Spontaneously Generates N₂O

“…We previously showed that 1 exhibits spin-crossover behavior, with a low-spin ( S = 1/2) ground state and a thermally accessible high-spin ( S = 3/2) excited state. 8b The low-spin species exhibited a ν (N—O) at 1641 cm −1 at cryogenic temperatures, whereas the high-spin ( S = 3/2) ν (N–O) is observed at 1737 cm −1 above 150 K (CD 3 CN). The RR spectrum of 3 (Figure 4) (λ exc = 647 nm) reveals a prominent, broad band at 1588 cm −1 that shifts to 1518 cm −1 upon substitution with 15 N 18 O; this 70-cm −1 downshift is in agreement with an N-O harmonic oscillator model (calculated Δ ν = −71 cm −1 ), confirming the assignment of this band to the N-O stretch of the new {FeNO} 8 species.…”

“…Reduction of {FeNO} x (x = 6, 7) species to the reactive {FeNO} 8 or {FeN(H)O} 8 states is often invoked as a prerequisite for N 2 O formation in enzymatic systems. There has been considerable interest in the preparation and characterization of {FeNO} 8 /{FeN(H)O} 8 model complexes, 5 but their synthesis is challenging because of their instability.…”

“…There has been considerable interest in the preparation and characterization of {FeNO} 8 /{FeN(H)O} 8 model complexes, 5 but their synthesis is challenging because of their instability. A limited number of nonheme {FeNO} 8 complexes have been characterized, 5a–g and these complexes exhibit low-spin S = 0 ground states, 5a–f with one exception of a high-spin S = 1 complex.…”

“…This complex, [Fe(NO)(N3PyS)]BF 4 ( 1 ), prepared from addition of NO • (g) to the Fe II precursor [Fe II (CH 3 CN)(N3PyS)]BF 4 ( 2 ), 7 was crystallographically characterized and showed excellent reversibility for both one-electron oxidation and reduction processes by cyclic voltammetry. 8 Herein we describe the one-electron reduction chemistry of 1, which leads to the generation of a metastable, nonheme {FeNO} 8 complex, [Fe(NO)(N3PyS)] ( 3 ). This complex spontaneously generates N 2 O upon standing in solution at 23 °C and is the first example, to our knowledge, of a mononuclear {FeNO} 8 species that reacts to give N 2 O. Spectroscopic and computational investigations also indicate that complex 3 exhibits a rare high-spin S = 1 ground state.…”

“…8a The well-behaved reversibility of the redox couple centered at E 1/2 = −1.18 V suggested that the one-electron-reduced {FeNO} 8 species may be stable enough for synthesis and characterization by chemical methods. The one-electron reductant decamethylcobaltocene (CoCp * 2 ) has a redox potential of E 1/2 = −1.91 V (vs Fc + /Fc in CH 3 CN), 9 indicating that it should be thermodynamically competent to reduce the {FeNO} 7 complex.…”

A Nonheme, High-Spin {FeNO}⁸ Complex that Spontaneously Generates N₂O

A Nonheme Sulfur‐Ligated {FeNO}⁶ Complex and Comparison with Redox‐Interconvertible {FeNO}⁷ and {FeNO}⁸ Analogues

A Nonheme Mononuclear {FeNO}⁷ Complex that Produces N₂O in the Absence of an Exogenous Reductant