| Type of Material: | Thesis |
| Title: | A study on the synthesis biological and analytical properties of imidazole ligands and their transition metal complexes |
| Researcher: | Anjali Krishna, G |
| Guide: | Mohanan, P V |
| Department: | Department of Applied Chemistry |
| Publisher: | Cochin University of Science & Technology, Cochin |
| Place: | Cochin |
| Year: | 2023 |
| Language: | English |
| Subject: | Chemistry | Heterocyclic compound | Imidazole Derivatives | Imidazole Inferred Compounds - Biological Relevance | Physical Sciences | Chemistry | Physical and Basic Sciences |
| Dissertation/Thesis Note: | PhD; Department of Applied Chemistry, Cochin University of Science & Technology, Cochin, Cochin; 2023 |
| Fulltext: | Shodhganga |
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| 001 | 456273 | |
| 003 | IN-AhILN | |
| 005 | 2024-10-08 17:38:47 | |
| 008 | __ | 241008t2023||||ii#||||g|m||||||||||eng|| |
| 035 | __ | |a(IN-AhILN)th_456273 |
| 040 | __ | |aCUST_682022|dIN-AhILN |
| 041 | __ | |aeng |
| 100 | __ | |aAnjali Krishna, G|eResearcher |
| 110 | __ | |aDepartment of Applied Chemistry|bCochin University of Science & Technology, Cochin|dCochin|ein|0U-0253 |
| 245 | __ | |aA study on the synthesis biological and analytical properties of imidazole ligands and their transition metal complexes |
| 260 | __ | |aCochin|bCochin University of Science & Technology, Cochin|c2023 |
| 300 | __ | |axviii,443|dDVD |
| 502 | __ | |cDepartment of Applied Chemistry, Cochin University of Science & Technology, Cochin, Cochin|d2023|bPhD |
| 518 | __ | |d2023|oDate of Award |
| 518 | __ | |oDate of Registration|d2018 |
| 520 | __ | |aResearch in biological applications encompasses a broad range of areas and is essential for developing new therapies and technologies to prevent, diagnose, and treat diseases. Ongoing research in this field is critical to advancing our understanding of biological systems and improving human health. Imidazole-based compounds have a wide range of therapeutic potential due to their diverse chemical and biological properties. Imidazole is a five-membered heterocyclic ring containing two nitrogen atoms, which can act as a versatile ligand in co-ordination chemistry. Transition metal complexes with imidazole ligands have been extensively studied in biological applications due to their structural diversity and their ability to mimic the active sites of metalloenzymes. Imidazole-containing ligands can coordinate to transition metals in a variety of ways, including monodentate, bidentate, or bridging modes, giving rise to a range of complex structures with different geometries, electronic properties, and reactivity. |
| 650 | __ | |aChemistry|2UGC |
| 650 | __ | |aPhysical and Basic Sciences|2AIU |
| 653 | __ | |aChemistry |
| 653 | __ | |aHeterocyclic compound |
| 653 | __ | |aImidazole Derivatives |
| 653 | __ | |aImidazole Inferred Compounds - Biological Relevance |
| 653 | __ | |aPhysical Sciences |
| 700 | __ | |eGuide|aMohanan, P V |
| 856 | __ | |uhttp://shodhganga.inflibnet.ac.in/handle/10603/570547|yShodhganga |
| 905 | __ | |afromsg |
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