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Please use this identifier to cite or link to this item: http://dr.iiserpune.ac.in:8080/xmlui/handle/123456789/10976
Title: Exploring ligand-stabilized polycationic antimony complexes for bond activation chemistry
Authors: MAJUMDAR, MOUMITA
DAS, SAYAK
Dept. of Chemistry
20246203
Keywords: Polycationic antimony complexes
Diantimony complexes
Bond activation chemistry
Main-group chemistry
Low-valent antimony
Pnictogen chemistry
Antimony radical cations
Heavier main-group elements
Small molecule activation
Main-group catalysis
Ligand stabilization
Terpyridine ligand
α-Iminopyridine ligand
Bis(α-iminopyridine) ligand
Homoleptic complexes
Heteroleptic complexes
Coordination complexes
Sb–Sb bond stabilization
Sb–O–Sb bridge
Oxo-bridged diantimony complexes
Lewis acidity
Lewis superacidity
Redox properties
Cyclic voltammetry
HOMO–LUMO analysis
Molecular orbital analysis
Electronic structure
Charge delocalization
Oxidative addition
Reductive elimination
Density Functional Theory (DFT)
B3LYP calculations
Computational analysis
Electronic properties
Geometry optimization
Orbital interactions
Single-crystal X-ray diffraction (SC-XRD)
Multinuclear NMR spectroscopy
Gutmann–Beckett method
Gutmann–Beckett method
Schlenk techniques
Antimony trication
Antimony dication
Homolytic cleavage
Transition-metallomimetic reactivity
Group 15 chemistry
Pnictogen dimers
Low-valent main-group compounds
Cationic dimers
Radical ions
Bond dissociation energy
Cooperative bond activation
Main-group redox catalysis
Issue Date: May-2026
Citation: 56
Abstract: This study focuses on the synthesis and stabilization of polycationic diantimony complexes through the design of novel ligand systems. These ligands were successfully prepared and characterized using NMR spectroscopy. In an effort to access ligand-stabilized diantimony species, a series of dicationic and tricationic monomeric antimony complexes was synthesized. These compounds were comprehensively characterized in both ‘solid’ and ‘solution states’ by ‘single-crystal X-ray diffraction’ ‘(SC-XRD)’ and ‘multinuclear NMR spectroscopy’, which includes “1H, 13C{1H}, 19F{1H}” techniques. The ‘redox properties’ of the cationic species were thoroughly studied by ‘Cyclic Voltammetry’, while their ‘Lewis acidity’ was measured through the ‘Gutmann-Beckett method’ monitored by 31P{1H} NMR spectroscopy. Furthermore, two oxo-bridge diantimony complexes-one homoleptic and one heteroleptic were synthesized and structurally characterized by SC-XRD. In addition, an anionic antimony as well as a neutral antimony complex were successfully prepared and characterized. Finally, the electronics properties of all synthesized compounds were studied through computational analysis, providing deeper insight into their structural and electronic behaviours.
URI: http://dr.iiserpune.ac.in:8080/xmlui/handle/123456789/10976
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