Sarkar Meghamala, Rajasekar Prabhakaran, Jose Cavya, Boomishankar Ramamoorthy
Department of Chemistry, Indian Institute of Science Education and Research, Pune, Dr. Homi Bhabha Road, Pune, 411008, India.
Centre for Energy Science, Indian Institute of Science Education and Research, Pune, Dr. Homi Bhabha Road, Pune, 411008, India.
Chem Rec. 2022 Mar;22(3):e202100281. doi: 10.1002/tcr.202100281. Epub 2021 Dec 27.
The chemistry of the imido-anions of the main group elements has been studied for more than three decades. The imido (NR) group is isoelectronic to the oxo (=O) group and can coordinate with metal ions through its lone pairs of electrons. The polyimido-P(V) anions are well explored as they resemble the phosphorus oxo moieties such as H PO , H PO , HPO and PO species. These imido anions are typically generated using strong main group organometallic reagents such as BuLi, Et Zn, Me Al and Bu Mg, etc. As a result, their coordination chemistry has been restricted to reactions in anhydrous aprotic solvents for a few main group metal ions. This account presents our findings on using certain soft transition metal such Ag(I) and Pd (II) for isolating these imido-P(V) anions as their corresponding self-assembled clusters and cages. Using the various salts of Ag(I) ions in reaction with 2-pyridyl ( Py) functionalized phosphonium salts and phosphoric triamides, we obtained the mono- and dianionic form of these imido ligands {[P(N Py) (NH Py) ] , [P(N Py) (NH Py)] , [PO(N Py)(NH Py) ] } and derived interesting examples of tri, penta, hepta and octanuclear Ag(I) clusters. Interestingly, by using the salts of Pd (II) ions, the elusive imido-phosphate trianions of the type [(RN) PO] (R= Bu, Hex, Pr) were generated in a facile one pot reaction as their corresponding tri- and hexanuclear clusters of the type {Pd (NR) PO } (n=1 or 2). These trianions acts as a cis-coordinated hexadentate ligand for a trinuclear Pd (II) cluster and serve as the polyhedral building units for constructing hitherto unknown family of neutral cages in tetrahedral {Pd [(N Pr) PO] (L) } and cubic {Pd [(N Pr) PO] (L) } structures in the presence of suitable linker ligands (L ). These cages show interesting host-guest chemistry and post-assembly reactions. Remarkably, by employing chiral tris(imido)phosphate trianions, enantiopure chiral cages of the type [(Pd X*) (L) ], ([X*] =RRR- or SSS-[PO(N(*CH(CH )Ph) ] ), were synthesized and used for the chiral-recognition and enantio-separation of small racemic guest molecules. Some of these chiral cages were also shown to exhibit polyradical framework structures. In future, these and other similar types of cages are envisioned as potential molecular vessels for performing the reactions in their confined environment. The enantiomeric cages can be probed for asymmetric catalysis and the separation of a range of small chiral molecules.
主族元素亚氨基阴离子的化学性质已被研究了三十多年。亚氨基(NR)基团与氧代(=O)基团等电子,可通过其孤对电子与金属离子配位。聚亚氨基 - 磷(V)阴离子已得到充分研究,因为它们类似于磷氧部分,如H₃PO₄、H₂PO₄⁻、HPO₄²⁻和PO₄³⁻物种。这些亚氨基阴离子通常使用强主族有机金属试剂如丁基锂、二乙基锌、三甲基铝和丁基溴化镁等生成。因此,它们的配位化学仅限于在无水非质子溶剂中与少数主族金属离子的反应。本报告介绍了我们使用某些软过渡金属如Ag(I)和Pd(II)将这些亚氨基 - 磷(V)阴离子分离为其相应的自组装簇和笼的研究结果。通过使Ag(I)离子的各种盐与2 - 吡啶基(Py)官能化的鏻盐和磷酸三酰胺反应,我们获得了这些亚氨基配体的单阴离子和双阴离子形式{[P(N - Py)₃(NH - Py)]⁻、[P(N - Py)₂(NH - Py)₂]²⁻、[PO(N - Py)(NH - Py)₃]⁻},并得到了有趣的三核、五核、七核和八核Ag(I)簇的例子。有趣的是,通过使用Pd(II)离子的盐,在一个简便的一锅反应中生成了难以捉摸的[(RN)PO]³⁻型亚氨基磷酸三阴离子(R = 丁基、己基、丙基),其形式为相应的{ Pdₙ(NR)POₙ }(n = 1或2)型三核和六核簇。这些三阴离子作为三核Pd(II)簇的顺式配位六齿配体,并在存在合适的连接配体(L)时作为构建迄今未知的四面体{ Pd₃(N - Pr)PO₂ }和立方{ Pd₄(N - Pr)PO₃ }结构的中性笼家族的多面体构建单元。这些笼表现出有趣的主客体化学和后组装反应。值得注意的是,通过使用手性三(亚氨基)磷酸三阴离子,合成了对映体纯的[(PdX*)₂(L)₃]型手性笼([X*] = RRR - 或SSS - [PO(N(*CH(CH₃)Ph)₃]³⁻),并用于外消旋小客体分子的手性识别和对映体分离。其中一些手性笼还显示出多自由基骨架结构。未来,这些以及其他类似类型的笼被设想为在其受限环境中进行反应的潜在分子容器。对映体笼可用于不对称催化和一系列小手性分子的分离。
