Structural Features, Emission Analysis, and Covalency Comparison of Neodymium Acylpyrazolone Complexes using Oscillator Strengths, Covalency and Judd‐Ofelt Parameters**

Travadi, Maitrey; Jadeja, Rajendrasinh N.; Butcher, Ray J.

doi:10.1002/slct.202302438

ChemistrySelect

2023

DOI: 10.1002/slct.202302438

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Structural Features, Emission Analysis, and Covalency Comparison of Neodymium Acylpyrazolone Complexes using Oscillator Strengths, Covalency and Judd‐Ofelt Parameters**

Maitrey Travadi,

Rajendrasinh N. Jadeja,

Ray J. Butcher

Abstract: Three distorted square antiprismatic eight coordinated neodymium acylpyrazolone complexes were synthesized having the compositions [Nd(L1)3(H2O)(EtOH)] (NdL1), [Nd(L2)3(H2O)(EtOH)] (NdL2), and [Nd(L3)3(H2O)(EtOH)] (NdL3). The structure of all three complexes was examined using ESI‐mass, FT‐IR, and thermogravimetric methods. According to the single crystal analysis of NdL1, the complex was found eight‐coordinated (NdO8) with a distorted square antiprismatic geometry. A powder XRD pattern confirmed a similar str… Show more

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Cited by 7 publications

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Rare Earth Acylpyrazolonates‐Synthesis, Structure, Luminescent Properties and Applications

Belousov,

Drozdov,

Shikin

et al. 2024

Eur J Inorg Chem

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Acylpyrazolonate derivatives of rare earth elements (REE), being a non‐mainstream class of β‐diketonates, have continued to attract chemists and materials scientists for more than half a century. The electronic structure features of these ligands make them effective sensitizers of the luminescence of various lanthanides, emitting in the visible and IR regions. Exhibiting all the typical structural types of β‐diketonates, acylpyrazolonates can form heterometallic complexes with d‐elements due to the presence of additional donor atoms. The review covers more than half a century of the history of these compounds and provides a perspective on the development of this class of compounds and their transformation into materials of the 21st century.

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Rare Earth Acylpyrazolonates‐Synthesis, Structure, Luminescent Properties and Applications

Belousov,

Drozdov,

Shikin

et al. 2024

Eur J Inorg Chem

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Solvent Free, Selective Oxidation of Styrene Catalyzed by Cobalt Acylpyrazolone Supported onto Neutral Alumina: Synthesis and Spectral Characterization

Vala,

Puranik,

Jadeja

et al. 2024

ChemistrySelect

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The present work describes the synthesis of the Cobalt acylpyrazolone complex supported over neutral alumina and its use as a heterogeneous catalyst for selective oxidation of styrene. The catalyst mentioned here was characterized by various physicochemical techniques such as FT‐IR, TGA, CV, SCXRD, PXRD and BET. This heterogeneous catalyst has successfully been used to oxidize styrene to benzaldehyde in a solvent‐free condition with good conversion (87 %) and high selectivity (90 %) using H2O2 and TBHP as oxidants. The effects of the reaction parameters (catalyst concentration, reaction duration, and temperature) have also been investigated. The existing complex was discovered to be recyclable and sustainable with no change in conversion or selectivity for benzaldehyde. FT‐IR spectra of the regenerated catalyst indicated that the catalyst was undegraded and stable after the reaction. The novel feature of the current work reported in this paper is the selective oxidation of styrene without the need for solvents under mild conditions. Single Crystal Analysis.

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Facile Synthesis of Functionalized TEOS–Acylpyrazolone Hybrid for Removal of Targeted Heavy Metal Ions: An Experimental and DFT Study

Kachhi,

Jadeja

2024

ChemistrySelect

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This study broadens the application of 4‐acylpyrazolone, a leading β‐diketone chelating ligand, to include the removal of heavy metal ions in our current work. As organic–inorganic hybrids have gained considerable attention these days due to their widespread applications in the field of Chemistry, we have employed a Schiff base reaction to generate 4‐acetyl‐5‐methyl‐2‐phenyl‐2,4‐dihydro‐pyrazole‐3‐one incorporated polysiloxane material using a cost‐effective one‐pot synthesis. Optimization studies were performed to eliminate Pb(II), Cu(II), and Cr(VI) by varying the beginning metal ion content, the required amount of the adsorbent, pH, required time, and temperature. The considerable opportunity for monolayered chemisorption is illustrated by the observation that adsorption opts for the Langmuir adsorption isotherm, with R2 values of 0.99. It employs an endothermic adsorption mechanism in a study at multiple temperatures and follows a pseudo‐second‐order kinetic model. FMO and MESP investigations of complexes formed through adsorption were successfully carried out through DFT. Material reveals quick recycling up to three alternating rounds with removal efficiencies of 82%, 56%, and 47% for Pb(II), Cu(II), and Cr(VI), respectively. Therefore, it may further be used for extraction of heavy metals from industrial effluents and provides the basis for future scope of this type of organic–inorganic hybrids in water treatment.

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Structural Features, Emission Analysis, and Covalency Comparison of Neodymium Acylpyrazolone Complexes using Oscillator Strengths, Covalency and Judd‐Ofelt Parameters**

Cited by 7 publications

References 61 publications

Rare Earth Acylpyrazolonates‐Synthesis, Structure, Luminescent Properties and Applications

Rare Earth Acylpyrazolonates‐Synthesis, Structure, Luminescent Properties and Applications

Solvent Free, Selective Oxidation of Styrene Catalyzed by Cobalt Acylpyrazolone Supported onto Neutral Alumina: Synthesis and Spectral Characterization

Facile Synthesis of Functionalized TEOS–Acylpyrazolone Hybrid for Removal of Targeted Heavy Metal Ions: An Experimental and DFT Study

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