Orbital Interaction and Electron Density Transfer in PdII([9]aneB2A)L2 Complexes: Theoretical Approaches

Ock Kwak,Jong Park,Euh Jeong,Yong-Jin Yoon,Mahreen Arooj

doi:10.3390/molecules181012687

Ock Kwak, Jong Park + Show 3 more

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https://doi.org/10.3390/molecules181012687

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Abstract

The geometric structures of Pd-complexes {Pd([9]aneB2A)L2 and Pd([9]aneBAB)L2 where A = P, S; B = N; L = PH3, P(CH3)3, Cl−}, their selective orbital interaction towards equatorial or axial (soft A…Pd) coordination of macrocyclic [9]aneB2A tridentate to PdL2, and electron density transfer from the electron-rich trans L-ligand to the low-lying unfilled a1g(5s)-orbital of PdL2 were investigated using B3P86/lanl2DZ for Pd and 6-311+G** for other atoms. The pentacoordinate endo-[Pd([9]aneB2A)(L-donor)2]2+ complex with an axial (soft A--Pd) quasi-bond was optimized for stability. The fifth (soft A--Pd) quasi-bond between the σ-donor of soft A and the partially unfilled a1g(5s)-orbital of PdL2 was formed. The pentacoordinate endo-Pd([9]aneB2A)(L-donor)2]2+ complex has been found to be more stable than the corresponding tetracoordinate endo-Pd complexes. Except for the endo-Pd pentacoordinates, the tetracoordinate Pd([9]aneBAB)L2 complex with one equatorial (soft A-Pd) bond is found to be more stable than the Pd([9]aneB2A)L2 isomer without the equatorial (A-Pd) bond. In particular, the geometric configuration of endo-[Pd([9]anePNP)(L-donor)2]2+ could not be optimized.

Highlights

The present study proposed the following geometric structures and the relative stabilities of macrocyclic Pd([9]aneB2A)L2 complexes within the frameworks of its orbital interaction and electronic effect
Our values are in agreement with the geometric structures and the apical distances (R(Pd...A) = 3.087~3.293 Å)
We investigated the geometric structures and relative stabilities of Pd([9]aneB2A)L2 complexes

Summary

Introduction

Carbon-carbon/carbon-heteroatom (e.g., C–C, C–N, C–O, C–S) bond formation using palladiummediated cross-coupling reactions has been extensively studied during the last few decades [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36] In this context, the achievements in development of novel and efficient synthetic methodologies for these types of reactions have been acknowledged with the 2010 Nobel Prize in Chemistry. The geometric structure of bulky L-ligand affects the oxidative addition reaction of Ar-X to the Pd(0)(L)n-precursor [6,7,8,25,26,27,28,29,30,31,32]

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