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Title: |
A Closer Look at Coordination Complexes |
Search Result:
| Edited by: |
Sandeep Kaur-Ghumaan |
| ISBN10-13: |
1685070949 : 9781685070946 |
| Format: |
Hardback |
| Pages: |
438 |
| Weight: |
.948 Kg. |
| Published: |
Nova Science Publishers, Inc - November 2021 |
| List Price: |
203.99 Pounds Sterling |
| Availability: |
Temporarily Out of Stock, more expected soon
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| Subjects: |
Inorganic chemistry |
| Coordination chemistry plays an important role in the designing of inorganic metal complexes, materials, organo-synthesis, biological systems and catalysis. In A CLOSER LOOK AT COORDINATION COMPLEXES, novel and evolving developments in the field have been described. The book includes chapters on the synthesis of coordination compounds using different ligand combinations (Schiff base ligands, phosphines, thiolates, ligands with N- and S-donors and so on), biological relevance and catalytic applications of the reported metal complexes. Different aspects of metal complexes, viz. structural and coordination properties of the ligands and complexes and applications viz., asymmetric organic transformations, potential anticancer agents, antibacterial-antioxidant-antifungal properties, alkenes epoxidation, olefins polymerisation, nitrogen reduction, hydrogen evolution and oxidation and mercury poisoning treatment reviewed by the authors have been delineated in the eight chapters of the book. |
| Table of Contents: |
| Preface; Tripodal Ligands as Powerful Platforms for Designing New Catalysts; Salen, Salalen and Salan Metal Complex Catalysed Asymmetric Organic Transformations; Catalytic Applications and Biological Significance of Coordination Complexes Incorporating Schiff Bases; 1,1-Dithio Ligand-Based Copper(II) Complexes with Potential Biological Applications; Advances in Transition Metal Catalyzed Olefin Polymerization; Synthetic Outer Coordination Sphere: A Key Feature for Designing Enzyme-Inspired H2 Production Catalysts; Hydrogenase Biomimetics as Catalysts for the Hydrogen Oxidation Reaction (HOR); Activation of Mercury-C Bond by N-Heterocyclic-Based Thiones and Selones: A Structural Overview; Index. |
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