Three-Dimensional Noncovalent Interaction Network within [NpO₂Cl₄]^2– Coordination Compounds: Influence on Thermochemical and Vibrational Properties

Abstract: Noncovalent interactions (NCIs) can influence the stability and chemical properties of pentavalent and hexavalent actinyl (AnO2 +/2+) compounds. In this work, the impact of NCIs (actinyl–hydrogen and actinyl–cation interactions) on the enthalpy of formation (ΔH f) and vibrational features was evaluated using Np­(VI) tetrachloro compounds as the model system. We calculated the ΔH f values of these solid-state compounds through density functional theory+ thermodynamics (DFT+ T) and validated the results against … Show more

“…Our previous work with uranyl 11 and neptunyl 57 solid state compounds has highlighted the importance of Non-Covalent Interactions (NCIs) in driving crystallization and the overall formation energies. To analyze the NCIs of Np-Gua and Np-Rb , we adopted the methodology developed in our prior work.…”

“…Ligated water molecules present in the Np-Rb chains form strong hydrogen bonding (BO = 0.109) with the axial oxygens on the neighboring neptunyl( v ) chains. The BO “yl” sum of Np-Cs was reported as 0.374, 57 which allows us to rank the BO “yl” sum of complexes as Np-Cs > Np-Rb > Np-Gua (Table 2). This trend in BO “yl” sum and interaction energies can be rationalized as being related to the overall molecular charges as it goes from −3 in the isolated Np-Cs units to −2 and −1 for Np-Gua and Np-Rb , respectively.…”

Synthesis, characterization, and density functional theory investigation of (CH₆N₃)₂[NpO₂Cl₃] and Rb[NpO₂Cl₂(H₂O)] chain structures

“…Our previous work with uranyl 11 and neptunyl 57 solid state compounds has highlighted the importance of Non-Covalent Interactions (NCIs) in driving crystallization and the overall formation energies. To analyze the NCIs of Np-Gua and Np-Rb , we adopted the methodology developed in our prior work.…”

“…Ligated water molecules present in the Np-Rb chains form strong hydrogen bonding (BO = 0.109) with the axial oxygens on the neighboring neptunyl( v ) chains. The BO “yl” sum of Np-Cs was reported as 0.374, 57 which allows us to rank the BO “yl” sum of complexes as Np-Cs > Np-Rb > Np-Gua (Table 2). This trend in BO “yl” sum and interaction energies can be rationalized as being related to the overall molecular charges as it goes from −3 in the isolated Np-Cs units to −2 and −1 for Np-Gua and Np-Rb , respectively.…”

Synthesis, characterization, and density functional theory investigation of (CH₆N₃)₂[NpO₂Cl₃] and Rb[NpO₂Cl₂(H₂O)] chain structures

“…For metal ions with no f-electrons, such as Th, vibrational spectroscopy has proven a valuable tool for further examining actinide-ligand bonding as well as the relative strength of noncovalent interactions. 10,[64][65][66][67] As such, compounds 1-15 were examined using Raman and IR spectroscopy; the spectra for 14, [3-ClPyH] 2 [Th(NO 3 ) 6 ], are presented in Fig. 17 as a representative example and the spectra for the other compounds are provided as ESI † (Fig.…”

“…[1][2][3][4] Indeed, such recognition as well as the application of these elements to areas ranging from biomedicine 5,6 to quantum information science 7 has motivated research efforts centered on actinide structural chemistry, bonding, and reactivity. [8][9][10][11][12][13][14] In aqueous systems, actinide speciation is principally governed by oxidation state. [2][3][4] Whereas thorium exists near exclusively as a tetravalent metal ion in water, uranium, neptunium, and plutonium have multiple accessible oxidation states, with the higher-valent ions forming 'yl' complexes and the lower-valent ions adopting more spherical coordination geometries.…”

“…1–4 Indeed, such recognition as well as the application of these elements to areas ranging from biomedicine 5,6 to quantum information science 7 has motivated research efforts centered on actinide structural chemistry, bonding, and reactivity. 8–14…”

Structural chemistry of penta- and hexanitrato thorium(iv) complexes isolated using N–H donors

Probing the protonation and reduction of heptavalent neptunium with computational guidance