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195Pt and 15N NMR Data in Square Planar Platinum(II) Complexes of the Type [Pt(NH3)aXb]n (Xb = Combination of Halides): 'NMR Effective Molecular Radius' of Coordinated Ammonia

Authors :
Michele Benedetti
Federica De Castro
Paride Papadia
Daniela Antonucci
and Francesco P. Fanizzi
Benedetti, Michele
DE CASTRO, Federica
Papadia, Paride
Antonucci, Daniela
Fanizzi, and Francesco P.
Publication Year :
2020

Abstract

By studying a model set of square-planar [Pt(NH3)aXb]n (a + b = 4; Xb = combination of b halido ligands; n = 2 – b) complexes, we found that their δ(195Pt) NMR chemical shift decreases proportionally to the platinum bonded halido ligands' ionic radii overall sum. This confirms also for these systems, the already observed NMR shielding attributed to pseudo ring currents, circulating around the M–X bond axis. Moreover, the present data show that also the NH3 ligands are characterized by a constant NMR shielding ability toward the central metal. This could be rationalized in term of a “NMR effective molecular radius” of the NH3 ligand, affecting the observed δ(195Pt) as previously found for halido ligands. Interestingly, a δ(15N) decrease is observed in Pt bonded NH3 ligands if the ionic radius of a cis halido ligand is increased. The opposite occurs if the ionic radius of a trans halido ligand is increased. The two contrasting effects stem from both shielding electric ring currents affecting the cis ligands and prevailing trans-influence due to coordinated halido ligands.

Details

Language :
English
Database :
OpenAIRE
Accession number :
edsair.od......4034..d656fd74fa22a651f5133c719f5f4c16
Full Text :
https://doi.org/10.1002/ejic.202000474