has been cited by the following article(s):
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[1]
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Design, synthesis, and thermal stability of rare earth luminescent materials
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Thermal Science,
2024 |
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[2]
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Designing and Judd–Ofelt evaluation of versatile luminescent Eu (III) complexes sensitized with β‐diketone ligand for multifarious applications
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…,
2023 |
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[3]
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Reactivity of Rare-Earth Oxides in Anhydrous Imidazolium Acetate Ionic Liquids
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Chemistry,
2023 |
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[4]
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Impact of stereoisomer multiplicity on the luminescence analysis of europium complexes
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Optical Materials,
2023 |
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[5]
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Cu2+, Co2+, And Zn2+ Complex-es Involving Benzotriazol, Ethane-1, 2-Diamine And 4, 4'-Diaminocyclohexylmethane Ligands
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Ann Clin Med Case Rep,
2022 |
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[6]
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Heteroleptic Eu (III) emissive complexes: Luminescent, optoelectronic and theoretical investigation
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Journal of …,
2022 |
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[7]
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Red luminous Eu (III) complexes: Preparation, spectral, optical and theoretical evaluation
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Inorganica Chimica …,
2022 |
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[8]
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Effect of substituted 2, 2′-bipyridine derivatives on luminescence characteristics of green emissive terbium complexes: Spectroscopic and optical analysis
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Journal of Molecular …,
2022 |
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[9]
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Stable Fluorescence of Eu3+ Complex Nanostructures Beneath a Protein Skin for Potential Biometric Recognition
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Nanomaterials,
2021 |
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[1]
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Decision Trees for the Recognition of Metal‐Centered Chirality in Coordination Complexes
Journal of Computational Chemistry,
2025
DOI:10.1002/jcc.70025
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[2]
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Organic Light-Emitting Diodes Based on Eu(III) Complexes Involving 1,1,1-Trifluoro-4-Phenyl-2,4-Butanedione with Ethanoic and n-Butanoic Acids
Physics of Wave Phenomena,
2025
DOI:10.3103/S1541308X24700559
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[3]
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Design, synthesis, and thermal stability of rare earth luminescent materials
Thermal Science,
2024
DOI:10.2298/TSCI2402405Z
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[4]
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Design, synthesis, and thermal stability of rare earth luminescent materials
Thermal Science,
2024
DOI:10.2298/TSCI2402405Z
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