Understanding the Scarcity of Thorium Peroxide Clusters

The reaction of Th­(NO₃)₄·5H₂O with 3 equiv of 2,2′,6′,2″-terpyridine (terpy) in a mixture of acetonitrile and methanol results in formation of the trinuclear thorium peroxide cluster [Th­(O₂)­(terpy)­(NO₃)₂]₃. This cluster is assembled via bridging by μ–η²:η² peroxide anions between thorium centers. It decomposes upon removal from the mother liquor to yield Th­(terpy)­(NO₃)₄ and Th­(terpy)­(NO₃)₄(EtOH). The peroxide formation appears to be radiolytic in origin and is, most likely, generated from radiolysis of water by short-lived daughters generated from ²³²Th decay. This cluster does not form when freshly recrystallized Th­(NO₃)₄·5H₂O is used as the starting material and requires an aged source of thorium. Analysis of the bonding in these clusters shows that, unlike uranium­(VI) peroxide interactions, thorium­(IV) complexation by peroxide is quite weak and largely ionic. This explains its much lower stability, which is more comparable to that observed in similar zirconium­(IV) peroxide clusters