Synthesis, X-ray Structures and Hirshfeld Analysis of Two Novel Thiocyanate-Bridged Ag(I) Coordination Polymers

Inorganics (Basel) Pub Date : 2023-10-23 DOI:10.3390/inorganics11100417

Mezna Saleh Altowyan, Eman M. Fathalla, Jörg H. Albering, Morsy A. M. Abu-Youssef, Taher S. Kassem, Assem Barakat, Matti Haukka, Ahmed M. A. Badr, Saied M. Soliman

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Abstract

Two novel silver(I) coordination polymers, [Ag(4BP)(SCN)]n (1) and {(4BPH)+[Ag(SCN)2]−}n (2) (4BP = 4-benzoyl pyridine), have been synthesized. The two complexes were prepared using almost the same reagents, which were AgNO3, 4BP and NH4SCN. The only difference was the presence of 1:1 (v/v) HNO3 in the synthesis of 2. In the two complexes, the Ag(I) has distorted tetrahedral coordination geometry. The structure of both complexes and the involvement of the thiocyanate anion as a linker between the Ag(I) centers were confirmed using single-crystal X-ray diffraction. 4BP participated as a monodentate ligand in the coordination sphere of complex 1, while in 2 it is found protonated (4BP-H)+ and acts as a counter ion, which balances the charge of the anionic [Ag(SCN)2]− moiety. The thiocyanate anion shows different coordination modes in the two complexes. In complex 1, the thiocyanate anion exhibits a µ1,1,3 bridging mode, which binds three Ag(I) ions to build a boat-like ten-membered ring structure leading to a two-dimensional coordination polymer. In 2, there are mixed µ1,1 and µ1,3 bridging thiocyanate groups, which form the one-dimensional polymeric chain running in the a-direction. Several interactions affected the stability of the crystal structure of the two complexes. These interactions were examined using Hirshfeld surface analysis. The coordination interactions (Ag-S and Ag-N) have a great impact on the stability of the polymeric structure of the two complexes. Additionally, the hydrogen-bonding interactions are crucial in the assembly of these coordination polymers. The O…H (10.7%) and C…H (34.2%) contacts in 1 as well as the N···H (15.3%) and S···H (14.9%) contacts in 2 are the most significant. Moreover, the argentophilic interaction (Ag…Ag = 3.378 Å) and π- π stacking play an important role in the assembly of complex 2.

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两种新型硫氰酸盐桥接银(I)配位聚合物的合成、x射线结构和Hirshfeld分析

合成了两种新型银(I)配位聚合物[Ag(4BP)(SCN)]n(1)和{(4BPH)+[Ag(SCN)2]−}n (2) (4BP = 4-苯甲酰基吡啶)。这两种配合物是用几乎相同的试剂制备的，分别是AgNO3、4BP和NH4SCN。唯一的区别是在2的合成中存在1:1 (v/v)的HNO3。在这两种配合物中，Ag(I)具有扭曲的四面体配位几何。用单晶x射线衍射证实了这两种配合物的结构以及硫氰酸盐阴离子作为Ag(I)中心之间的连接剂的参与。4BP作为单齿配体参与配合物1的配位球，而在配合物2中，它被发现是质子化的(4BP- h)+，并作为一个反离子，平衡阴离子[Ag(SCN)2] -部分的电荷。硫氰酸盐阴离子在两种配合物中表现出不同的配位模式。在配合物1中，硫氰酸盐阴离子表现出µ1,1,3桥接模式，与三个Ag(I)离子结合，形成一个船状的十元环结构，从而形成二维配位聚合物。在2中，有混合的µ1,1和µ1,3桥接硫氰酸基团，形成沿a方向运行的一维聚合物链。几种相互作用影响了这两种配合物晶体结构的稳定性。这些相互作用是用赫希菲尔德表面分析来检验的。配位相互作用(Ag-S和Ag-N)对两种配合物的聚合物结构的稳定性有很大影响。此外，氢键相互作用在这些配位聚合物的组装中是至关重要的。1中O·H(10.7%)和C·H(34.2%)接触以及2中N··H(15.3%)和S··H(14.9%)接触最为显著。此外，亲银相互作用(Ag…Ag = 3.378 Å)和π- π堆积在配合物2的组装中起重要作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Inorganics (Basel)

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