Unusual structure, bonding and properties in a californium borate

The participation of the valence orbitals of actinides in bonding has been debated for decades. Recent experimental and computational investigations demonstrated the involvement of 6p, 6d and/or 5f orbitals in bonding. However, structural and spectroscopic data, as well as theory, indicate a decreas...

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Veröffentlicht in:	Nature chemistry 2014-03, Vol.6 (5)
Hauptverfasser:	Polinski, Matthew J., Garner, III, Edward B., Maurice, Rémi, Planas, Nora, Stritzinger, Jared T., Parker, T. Gannon, Cross, Justin N., Green, Thomas D., Alekseev, Evgeny V., Van Cleve, Shelley M., Depmeier, Wulf, Gagliardi, Laura, Shatruk, Michael, Knappenberger, Kenneth L., Liu, Guokui, Skanthakumar, S., Soderholm, Lynda, Dixon, David A., Albrecht-Schmitt, Thomas E.
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Sprache:	eng
Schlagworte:	Chemical bonding INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
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creator	Polinski, Matthew J. Garner, III, Edward B. Maurice, Rémi Planas, Nora Stritzinger, Jared T. Parker, T. Gannon Cross, Justin N. Green, Thomas D. Alekseev, Evgeny V. Van Cleve, Shelley M. Depmeier, Wulf Gagliardi, Laura Shatruk, Michael Knappenberger, Kenneth L. Liu, Guokui Skanthakumar, S. Soderholm, Lynda Dixon, David A. Albrecht-Schmitt, Thomas E.
description	The participation of the valence orbitals of actinides in bonding has been debated for decades. Recent experimental and computational investigations demonstrated the involvement of 6p, 6d and/or 5f orbitals in bonding. However, structural and spectroscopic data, as well as theory, indicate a decrease in covalency across the actinide series, and the evidence points to highly ionic, lanthanide-like bonding for late actinides. Here we show that chemical differentiation between californium and lanthanides can be achieved by using ligands that are both highly polarizable and substantially rearrange on complexation. A ligand that suits both of these desired properties is polyborate. Here, we demonstrate that the 5f, 6d and 7p orbitals are all involved in bonding in a Cf(III) borate, and that large crystal-field effects are present. Synthetic, structural and spectroscopic data are complemented by quantum mechanical calculations to support these observations.
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Gannon ; Cross, Justin N. ; Green, Thomas D. ; Alekseev, Evgeny V. ; Van Cleve, Shelley M. ; Depmeier, Wulf ; Gagliardi, Laura ; Shatruk, Michael ; Knappenberger, Kenneth L. ; Liu, Guokui ; Skanthakumar, S. ; Soderholm, Lynda ; Dixon, David A. ; Albrecht-Schmitt, Thomas E.</creator><creatorcontrib>Polinski, Matthew J. ; Garner, III, Edward B. ; Maurice, Rémi ; Planas, Nora ; Stritzinger, Jared T. ; Parker, T. Gannon ; Cross, Justin N. ; Green, Thomas D. ; Alekseev, Evgeny V. ; Van Cleve, Shelley M. ; Depmeier, Wulf ; Gagliardi, Laura ; Shatruk, Michael ; Knappenberger, Kenneth L. ; Liu, Guokui ; Skanthakumar, S. ; Soderholm, Lynda ; Dixon, David A. ; Albrecht-Schmitt, Thomas E. ; Florida State Univ., Tallahassee, FL (United States)</creatorcontrib><description>The participation of the valence orbitals of actinides in bonding has been debated for decades. Recent experimental and computational investigations demonstrated the involvement of 6p, 6d and/or 5f orbitals in bonding. 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title	Unusual structure, bonding and properties in a californium borate
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