Binding Small Molecules to a cis-Dicarbonyl 99TcI-PNP Complex via Metal-Ligand Cooperativity

Manuel Luca Besmer; Henrik Braband; Thomas Fox; Bernhard Spingler; Alfred P Sattelberger; Roger Alberto

doi:10.1021/acs.inorgchem.3c01177

Binding Small Molecules to a cis-Dicarbonyl ⁹⁹Tc^I-PNP Complex via Metal-Ligand Cooperativity

Inorg Chem. 2023 Jul 10;62(27):10727-10735. doi: 10.1021/acs.inorgchem.3c01177. Epub 2023 Jun 23.

Authors

Manuel Luca Besmer¹, Henrik Braband¹, Thomas Fox¹, Bernhard Spingler¹, Alfred P Sattelberger², Roger Alberto¹

Affiliations

¹ Department of Chemistry, University of Zurich, Zurich CH-8057, Switzerland.
² Department of Chemistry, University of Central Florida, 4111 Libra Drive, Orlando, Florida 32816, United States.

Abstract

Metal-ligand cooperativity is a powerful tool for the activation of various bonds but has rarely, if ever, been studied with the radioactive transition metal ⁹⁹Tc. In this work, we explore this bond activation pathway with the dearomatized PNP complex cis-[⁹⁹Tc^I(^PyrPNP^tBu*)(CO)₂] (4), which was synthesized by deprotonation of trans-[⁹⁹Tc^I(^PyrPNP^tBu)(CO)₂Cl] with KO^tBu. Analogous to its rhenium congener, the dearomatized compound reacts with CO₂ to form the carboxy complex cis-[⁹⁹Tc^I(^PyrPNP^tBu-COO)(CO)₂] and with H₂ to form the mono-hydride complex cis-[⁹⁹Tc^I(^PyrPNP^tBu)(CO)₂H] (7). Substrates with weakly acidic protons are deprotonated by the Brønsted basic pincer backbone of 4, yielding a variety of intriguing complexes. Reactions with terminal alkynes enable the isolation of acetylide complexes. The deprotonation of an imidazolium salt results in the in situ formation and coordination of a carbene ligand. Furthermore, a study with heterocyclic substrates allowed for the isolation of pyrrolide and pyrazolide complexes, which is uncommon for Tc. The spectroscopic analyses and their solid-state structures are reported.