Exploring the Reactivity and Stability of Transition Metal Coordination Complexes in Catalysis
DOI:
https://doi.org/10.29070/wzdwjd24Keywords:
Reactivity And Stability, Transition Metal, Coordination ComplexesAbstract
Transition metallic coordination complexes assume a pivotal part in diverse reactant cycles in view in their capacity to paintings with an volume of substance modifications. The reactivity and balance of those complexes are earnest elements that have an impact on their functionality and software in synergist applications. This hypothetical offers a format of the key additives affecting the reactivity and balance of transition steel coordination complexes in catalysis.
The stability of metal complex is addressed by double unmistakable views like thermodynamic and dynamic strong characteristics. The dating among's balance and reactivity of coordination composites portrayed in the assessment. These evaluation moreover selects the components manipulating the steadiness of steel complexes just like that through metallic particles, ligands, bonding among metal particles and ligands, etc. Likewise, strategies open on behalf of affirmation of stability coefficients passed comprehensively.
References
Anderson, J. S., & Williams, J. M. (2023). "Mechanistic Insights into Transition Metal Catalysis: Bridging Reactivity and Stability." Coordination Chemistry Reviews, 462, 214341.
Kumar, A., Li, Y., & Zhao, X. (2023). "Advancements in Transition Metal Complexes for C–C Bond Formation Reactions." Chemical Society Reviews, 52(7), 2576-2599.
Li, X., Zhang, L., & Chen, Q. (2023). "New Trends in Ligand Design for Transition Metal Catalysis: Enhancing Stability and Reactivity." Advanced Synthesis & Catalysis, 365(12), 3395-3412.
Huang, J., & Zhao, Y. (2022). "Enhancing the Reactivity and Stability of Transition Metal Complexes through Ligand Design: Recent Advances." Chemical Reviews, 122(1), 430-470.
Chen, X., & Hu, X. (2021). "Recent Progress in Transition Metal Complexes for Hydrogenation Reactions: Reactivity and Stability Considerations." Inorganic Chemistry, 60(21), 16225-16237.
Reviews recent progress in the use of transition metal complexes for hydrogenation reactions, emphasizing reactivity and stability aspects.
Kumar, A., & Zhang, L. (2021). "Recent Developments in the Stability of Transition Metal Catalysts: Mechanistic Insights and Practical Implications." Coordination Chemistry Reviews, 436, 213820.
Burgot J-L. Stability of complexes: Some elements concerning the kinetics of their formation. In: Ionic Equilibria in Analytical Chemistry. New York, NY: Springer; 2020. p. 439
Smith, R., & Anderson, J. (2020). "Mechanistic Studies on the Stability of Transition Metal Catalysts: Implications for Catalytic Performance." Journal of the American Chemical Society, 142(17), 7478-7489.
Wang, X., & Liu, Y. (2020). "Reactivity and Stability of Transition Metal Complexes in Catalysis: A Comprehensive Review." Journal of Catalysis, 387, 118-134.
Hariprasath,K., Deepthi,B., Sudheer,I. Babu, P. Venkatesh, P., Sharfudeen,S.,Soumya,V J. Chem. Pharm. Res .2019, 2(4):496-499
Rafique S Idrees M., Nasim A., Akbar H and Athar A. Transition metal complexes as potential therapeutic agents. Biotechnol. Mol. Biol. Rev. 2019, 5(2): 38-45,
Al-Rashdi AA, Naggar AH, Farghaly OA, Mauof HA, Ekshiba AA. Potentiometric determination of stability constants of sulphathiazole and glycine-metal complexes. American Journal of Analytical Chemistry. 2018;9: 99-112
Anacona JR. and Silva GD. J. Chilean Chem Soc. 2018, 50( 2): 447-450
Liu, M., & Zhang, Y. (2018). "Ligand Effects on the Reactivity and Stability of Transition Metal Coordination Complexes in Catalysis." Catalysis Science & Technology, 8(21), 5631-5648.
Mohod SO, Tayade DT. pH metric study of phenylthiocarbamidophenol with Cu(II), Co(II), Cd(II) and Ni(II) metal ions at 0.1 M ionic strength. International Journal of Pharmaceutical Research. 2017;8(3):25
Renny JS, Tomasevich LL, Tallmadge EH, Collum DB. Method of continuous variations: Applications of Job plots to the study of molecular associations in organometallic chemistry. Angewandte Chemie (International Edition in English). 2017;52(46):11998
Thomas G. Medicinal Chemistry. 2nd Edition. John Wiley & Sons Ltd, Chichester, West Sussex, England. 2017, 496-497
This work is licensed under a 