A Sterically Hindered Derivative of 2,1,3‐Benzotelluradiazole: A Way to the First Structurally Characterised Monomeric Tellurium–Nitrogen Radical Anion

Abstract: DedicatedtoProfessor Rosa Llusaro nt he occasiono fh er birthdaya nd in recognition of her inspiring combinations of chemical experiment and quantum theory

“…This approach recently demonstrated complete agreement with experiment for the HFS tensor of 125 Te in a tellurium-containing radical anion. 50 For complex 1, these accurate calculations predicted an anisotropic g-tensor with g iso = 2.135 (see the SI for details) with good agreement with experiment (g iso = 2.115). As expected from the spin density distribution and the SOMO shape (Figure 3), the HFS tensors and constants are close for three rhenium atoms with |a iso ( 187 Re)| equal to 9.67, 9.91, and 11.74 mT for Re1−Re3, respectively (Table S1).…”

“…The spin-Hamiltonian parameters were calculated using the exact two-component relativistic X2C method with a self-consistent account of spin–orbit coupling (SOC), as described in the Computational Details section. This approach recently demonstrated complete agreement with experiment for the HFS tensor of 125 Te in a tellurium-containing radical anion . For complex 1 , these accurate calculations predicted an anisotropic g -tensor with g iso = 2.135 (see the SI for details) with good agreement with experiment ( g iso = 2.115).…”

Paramagnetic Rhenium Iodide Cluster with N-Heterocyclic Carbene

“…This approach recently demonstrated complete agreement with experiment for the HFS tensor of 125 Te in a tellurium-containing radical anion. 50 For complex 1, these accurate calculations predicted an anisotropic g-tensor with g iso = 2.135 (see the SI for details) with good agreement with experiment (g iso = 2.115). As expected from the spin density distribution and the SOMO shape (Figure 3), the HFS tensors and constants are close for three rhenium atoms with |a iso ( 187 Re)| equal to 9.67, 9.91, and 11.74 mT for Re1−Re3, respectively (Table S1).…”

“…The spin-Hamiltonian parameters were calculated using the exact two-component relativistic X2C method with a self-consistent account of spin–orbit coupling (SOC), as described in the Computational Details section. This approach recently demonstrated complete agreement with experiment for the HFS tensor of 125 Te in a tellurium-containing radical anion . For complex 1 , these accurate calculations predicted an anisotropic g -tensor with g iso = 2.135 (see the SI for details) with good agreement with experiment ( g iso = 2.115).…”

Paramagnetic Rhenium Iodide Cluster with N-Heterocyclic Carbene

“…The four-coordinate tellurium radical anion Te-A1 (Scheme 107), the first stable tellurium-nitrogen radical anion, was synthesized via the one-electron reduction of Te-PA1 with Cp 2 Co. 157 The solution EPR spectrum of Te-A1 at room temperature reveals a five-line pattern at g = 1.9948 and a( 14 N) = 0.50 mT. After cooling to 153 K, two weak satellites separated by 29.0 mT were observed in the solution EPR spectrum of Te-A1, which correspond to the hyperfine coupling with the 125 Te nuclei (a zz ( 125 Te) = 29.0 mT).…”

Recent advances in stable main group element radicals: preparation and characterization

“…Thus, the spin-Hamiltonian parameters for 3 were calculated using the exact two-component relativistic X2C method with self-consistent consideration of spin-orbit coupling (SOC) in conjunction with the B3LYP functional and relativistic STO-type basis set. Recently, [14] it was demonstrated that the same computational approach applied for the nearest neighbor of iodine in the periodic table ( 125 Te) leads to complete agreement with the experiment. In support of this choice, it should also be noted that P. Haase et al [15] recently reported that the use of both the two-component X2 C and four-component Dirac-Coulomb Hamiltonians yields practically identical results for other neighbors of 127 I: 137 Ba and 133 Cs.…”

“…The calculations were carried out for two optimized geometries (3-1' and 3-2'). The results [g iso , hyperfine coupling (HFC) tensors (A) and constants (a iso ) with 127 I as well as with 14 N] are presented in Table 2. Slightly different HFC constants (0.54 and 0.6 mT) were predicted for two nitrogen atoms; both calculated values somewhat underestimate the typical values in nitronyl nitroxides (~0.75 � 0.04 mT), [16][17][18] which is typical of UB3LYP calculations.…”

2‐(8‐Iodonaphthalen‐1‐yl)‐Substituted Nitronyl Nitroxide: Suppressed Reactivity of Iodine Atom and Unusual Temperature Dynamics of the EPR Spectrum