Activation of water at disiladicarbene: from the perspective of modification of silicon surface with organo-silicon compounds

IF 1.7 4区 化学 Q3 CHEMISTRY, MULTIDISCIPLINARY Journal of Chemical Sciences Pub Date : 2024-03-07 DOI:10.1007/s12039-024-02253-x
Selvakumar Arumugam, Sai Manoj N V T Gorantla, Christel Livia Mascarenhas, Birger Dittrich, Kartik Chandra Mondal
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Abstract

Silicon is one of the most important components of electronic devices. Surface passivation of a silicon wafer is an active area of research. The Si(OH)2 sites of partially oxidized silicon surface could exist as hydroxylated [Si(OH)2] or hydrated silanone [SiO∙(OH2)]. The previously reported disiladicarbene (cAAC)2Si2 has been reacted here with water to obtain elusive, hydrated silanone (3) co-crystallized with its silanol analog (2) in a 1:3 molar ratio. The mass spectrometric characterization of acyclic silanone, followed by the isolation and characterization of the zwitterionic hydrated silanone, has been achieved. The detailed energy decomposition analysis coupled with natural orbital for chemical valence (EDA-NOCV) calculations revealed that the central Si(O)OH unit of the hydrated silanone possesses a covalent electron sharing σ- and a dative σ-bonds (CL−Si, Si←CL) with hydrogen-containing cyclic alkyl(amino) carbene ligands. These two bonds are stabilized by 49% coulombic interaction and 47.8% orbital interaction. The presence of N-atoms at the hydrogenated and/or protonated carbene part (cAACH/cAACH2) has reduced the stability of these species. The electron pair on the N-atom of the cAACH unit displays a sort of anomeric effect relevant to the cyclic form of the sugar molecule.

Graphical abstract

A disiladicarbene containing two Si(0) centres reacts with water to produce a mixture of co-crystallized products in a 3:1 molar ratio. EDA-NOCV analyses further analysed the bonding and stability of zwitterionic-hydrate-silanone to probe the nature of chemical bonds in it. This species has further been characterized by ES-MS spectrometry.

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二硅二碳烯的水活化:从用有机硅化合物修饰硅表面的角度看问题
硅是电子设备最重要的元件之一。硅晶片的表面钝化是一个活跃的研究领域。部分氧化硅表面的 Si(OH)2 位点可以羟基化 [Si(OH)2] 或水合硅酮 [SiO∙(OH2)]的形式存在。以前报道过的二硅二碳烯 (cAAC)2Si2 在这里与水反应,以 1:3 的摩尔比获得了难以捉摸的水合硅酮 (3) 及其硅醇类似物 (2)。先对无环硅烷酮进行了质谱鉴定,然后分离并鉴定了齐聚物水合硅烷酮。通过详细的能量分解分析和化合价自然轨道(EDA-NOCV)计算发现,水合硅酮的中心 Si(O)OH 单元与含氢环状烷基(氨基)碳配体之间存在共价电子共享σ-键和对价σ-键(CL-Si,Si←CL)。这两个键通过 49% 的库仑相互作用和 47.8% 的轨道相互作用得到稳定。氢化和/或质子化碳烯部分(cAACH/cAACH2)上 N 原子的存在降低了这些物种的稳定性。cAACH 单元 N 原子上的电子对显示出一种与糖分子的环状形式有关的同分异构效应。 图解摘要 含有两个 Si(0) 中心的二碳二苯与水反应,生成摩尔比为 3:1 的共晶混合物。EDA-NOCV 分析进一步分析了齐聚物-水合硅酮的键合和稳定性,以探究其中化学键的性质。ES-MS 光谱法进一步确定了这种物质的特征。
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来源期刊
Journal of Chemical Sciences
Journal of Chemical Sciences CHEMISTRY, MULTIDISCIPLINARY-
CiteScore
3.10
自引率
5.90%
发文量
107
审稿时长
1 months
期刊介绍: Journal of Chemical Sciences is a monthly journal published by the Indian Academy of Sciences. It formed part of the original Proceedings of the Indian Academy of Sciences – Part A, started by the Nobel Laureate Prof C V Raman in 1934, that was split in 1978 into three separate journals. It was renamed as Journal of Chemical Sciences in 2004. The journal publishes original research articles and rapid communications, covering all areas of chemical sciences. A significant feature of the journal is its special issues, brought out from time to time, devoted to conference symposia/proceedings in frontier areas of the subject, held not only in India but also in other countries.
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