Mahmoudi, G., Afkhami, F. A., Kennedy, A. R., Zubkov, F. I., Zangrando, E., Kirillov, A. M., Molins, E., Mitoraj, M. P., and Safin, D. A.
In this work, we report extensive experimental and theoretical investigations on a new series of PbII coordination polymers exhibiting extended supramolecular architectures, namely [Pb2(LI)(NCS)4]n (1), [Pb(HLII)I2]n (2), [Pb(LIII)I]n (3) and [Pb(HLIV)(NO3)2]n·nMeOH (4), which were self-assembled from different PbII salts and various pyridine-hydrazine based linkers, namely 1,2-bis(pyridin-3-ylmethylene)hydrazine (LI), (pyridin-4-ylmethylene)isonicotinohydrazide (HLII), 1-(pyridin-2-yl)ethylidenenicotinohydrazide (HLIII) and phenyl(pyridin-2-yl)methylenenicotinohydrazide (HLIV), respectively. It is recognized that the origin of self-assembling is fundamentally rooted in a dual donor (6s2/6p0 hybridized lone electron pair) and electrophilic behaviour of PbII. This allows production of extended topologies from a 1D polymeric chain in 4 through a 2D layer in 2 to the 3D frameworks in 1 and 3, predominantly due to the cooperative action of both covalent and non-covalent tetrel interactions of the overall type Pb-X (X = O, N, S, I). Counterintuitively, the latter, seemingly weak interactions, have appeared to be even stronger than the typical covalent bonds due to the presence of a bunch of supportive London dispersion dominated contacts: π⋯π, Lp⋯π, C-H⋯O, C-H⋯I, C-H⋯H-C as well as more typical mainly electrostatically driven N-H⋯O or N/O-H⋯O hydrogen bonds. It is revealed that the constituting generally strong tetrel type Pb-X (X = O, N, S, I) bonds, though dominated by a classic Coulomb term, are therefore characterized by a very important London dispersion constituent, extremely strong relativistic effects and the two way dative-covalent Pb ↔ X electron charge delocalization contribution as revealed by the Extended Transition State Natural Orbital for Chemical Valence (ETS-NOCV) charge and energy decomposition scheme. It unravels that the pyridine-hydrazine linkers are also excellent London dispersion donors, and that together with the donor-acceptor properties of the heavy (relativistic) PbII atoms and nucleophilic counterions lead to extended self-assembling of 1-4. © 2020 The Royal Society of Chemistry. We are grateful to the University of Maragheh for the financial support of this research. The publication has been prepared with the support from the “RUDN University Program 5-100” (recipient F. I. Zubkov, synthesis of the ligands). DFT calculations were partially performed using the PL-Grid Infrastructure and resources provided by the ACC Cyfronet AGH (Cracow, Poland). A. M. Kirillov acknowledges the FCT and Portugal 2020 (LISBOA-01-0145-FEDER-029697 and UIDB/ 00100/2020). ICMAB acknowledges the Severo Ochoa Program (MINECO, SEV-2015-0496). M. P. Mitoraj acknowledges the financial support from the Polish National Science Center within the Sonata Bis Project 2017/26/E/ST4/00104.