The one-electron reduction of ((tbs)L)Fe₃(thf)¹ furnishes [M][((tbs)L)Fe₃] ([M]⁺ = [(18-C-6)K(thf)₂]⁺ (1, 76%) or [(crypt-222)K]⁺ (2, 54%)). Upon reduction, the ligand (tbs)L⁶⁻ rearranges around the triiron core to adopt an almost ideal C₃-symmetry. Accompanying the ((tbs)L) ligand rearrangement, the THF bound to the neutral starting material is expelled, and the Fe-Fe distances within the trinuclear cluster contract by ∼0.13 Å in 1. Variable-temperature magnetic susceptibility data indicates a well-isolated S = 11/2 spin ground state that persists to room temperature. Slow magnetic relaxation is observed at low temperature as evidenced by the out-of-phase (χ(M)″) component of the alternating current (ac) magnetic susceptibility data and by the appearance of hyperfine splitting in the zero-field ⁵⁷Fe Mössbauer spectra at 4.2 K. Analysis of the ac magnetic susceptibility yields an effective spin reversal barrier (U(eff)) of 22.6(2) cm⁻¹, nearly matching the theoretical barrier of 38.7 cm⁻¹ calculated from the axial zero-field splitting parameter (D = -1.29 cm⁻¹) extracted from the reduced magnetization data. A polycrystalline sample of 1 displays three sextets in the Mössbauer spectrum at 4.2 K (H(ext) = 0) which converge to a single six-line pattern in a frozen 2-MeTHF glass sample, indicating a unique iron environment and thus strong electron delocalization. The spin ground state and ligand rearrangement are discussed within the framework of a fully delocalized cluster exhibiting strong double and direct exchange interactions.
The one-electron reduction of ((tbs)L)n class="Chemical">Fe₃(thf)¹ furnishes [M][((tbs)L)Fe₃] ([M]⁺ = [(18-C-6)K(thf)₂]⁺ (1, 76%) or [(crypt-222)K]⁺ (2, 54%)). Upon reduction, the ligand (tbs)L⁶⁻ rearranges around the triiron core to adopt an almost ideal C₃-symmetry. Accompanying the ((tbs)L) ligand rearrangement, the THF bound to the neutral starting material is expelled, and the Fe-Fe distances within the trinuclear cluster contract by ∼0.13 Å in 1. Variable-temperature magnetic susceptibility data indicates a well-isolated S = 11/2 spin ground state that persists to room temperature. Slow magnetic relaxation is observed at low temperature as evidenced by the out-of-phase (χ(M)″) component of the alternating current (ac) magnetic susceptibility data and by the appearance of hyperfine splitting in the zero-field ⁵⁷Fe Mössbauer spectra at 4.2 K. Analysis of the ac magnetic susceptibility yields an effective spin reversal barrier (U(eff)) of 22.6(2) cm⁻¹, nearly matching the theoretical barrier of 38.7 cm⁻¹ calculated from the axial zero-field splitting parameter (D = -1.29 cm⁻¹) extracted from the reduced magnetization data. A polycrystalline sample of 1 displays three sextets in the Mössbauer spectrum at 4.2 K (H(ext) = 0) which converge to a single six-line pattern in a frozen 2-MeTHF glass sample, indicating a unique iron environment and thus strong electron delocalization. The spin ground state and ligand rearrangement are discussed within the framework of a fully delocalized cluster exhibiting strong double and direct exchange interactions.
Authors: Christopher M Zall; Danylo Zherebetskyy; Allison L Dzubak; Eckhard Bill; Laura Gagliardi; Connie C Lu Journal: Inorg Chem Date: 2011-12-08 Impact factor: 5.165
Authors: Aimee M Bryan; Chun-Yi Lin; Michio Sorai; Yuji Miyazaki; Helen M Hoyt; Annelise Hablutzel; Anne LaPointe; William M Reiff; Philip P Power; Charles E Schulz Journal: Inorg Chem Date: 2014-11-04 Impact factor: 5.165
Authors: Nicholas F Chilton; Russell P Anderson; Lincoln D Turner; Alessandro Soncini; Keith S Murray Journal: J Comput Chem Date: 2013-02-05 Impact factor: 3.376
Authors: Bettina Bechlars; Deanna M D'Alessandro; David M Jenkins; Anthony T Iavarone; Starla D Glover; Clifford P Kubiak; Jeffrey R Long Journal: Nat Chem Date: 2010-03-21 Impact factor: 24.427
Authors: Tim N Gieshoff; Uttam Chakraborty; Matteo Villa; Axel Jacobi von Wangelin Journal: Angew Chem Int Ed Engl Date: 2017-02-24 Impact factor: 15.336
Authors: Cornelius Krull; Marina Castelli; Prokop Hapala; Dhaneesh Kumar; Anton Tadich; Martina Capsoni; Mark T Edmonds; Jack Hellerstedt; Sarah A Burke; Pavel Jelinek; Agustin Schiffrin Journal: Nat Commun Date: 2018-08-10 Impact factor: 14.919