Relativity as a Synthesis Design Principle: A Comparative Study of [3 + 2] Cycloaddition of Technetium(VII) and Rhenium(VII) Trioxo Complexes with Olefins
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https://hdl.handle.net/10037/24151Date
2021-07-13Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Braband, Henrik; Benz, Michael; Spingler, Bernhard; Conradie, Jeanet; Roger, Alberto; Ghosh, AbhikAbstract
The difference in [3 + 2] cycloaddition reactivity between fac-
[MO3(tacn)]+ (M = Re, 99Tc; tacn = 1,4,7-triazacyclononane) complexes has been
reexamined with a selection of unsaturated substrates including sodium 4-
vinylbenzenesulfonate, norbornene, 2-butyne, and 2-methyl-3-butyn-2-ol
(2MByOH). None of the substrates was found to react with the Re cation in
water at room temperature, whereas the 99Tc reagent cleanly yielded the [3 + 2]
cycloadducts. Interestingly, a bis-adduct was obtained as the sole product for
2MByOH, reflecting the high reactivity of a 99TcO-enediolato monoadduct. On the
basis of scalar relativistic and nonrelativistic density functional theory calculations of
the reaction pathways, the dramatic difference in reactivity between the two metals
has now been substantially attributed to differences in relativistic effects, which are
much larger for the 5d metal. Furthermore, scalar-relativistic ΔG values were found
to decrease along the series propene > norbornene > 2-butyne > dimethylketene,
indicating major variations in the thermodynamic driving force as a function of the unsaturated substrate. The suggestion is made
that scalar-relativistic effects, consisting of greater destabilization of the valence electrons of the 5d elements compared with those of
the 4d elements, be viewed as a new design principle for novel 99mTc/Re radiopharmaceuticals, as well as more generally in heavyelement coordination chemistry.
Publisher
American Chemical SocietyCitation
Braband H, Benz, Spingler, Conradie J, Roger, Ghosh A. Relativity as a Synthesis Design Principle: A Comparative Study of [3 + 2] Cycloaddition of Technetium(VII) and Rhenium(VII) Trioxo Complexes with Olefins. Inorganic Chemistry. 2021;60:11090-11097Metadata
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