Description
Advances in Metallacrown Chemistry, 1st ed. 2022
Coordinator: Zaleski Curtis M.
Language: EnglishSubjects for Advances in Metallacrown Chemistry:
Advances in Metallacrown Chemistry
Publication date: 09-2023
381 p. · 15.5x23.5 cm · Paperback
Publication date: 09-2023
381 p. · 15.5x23.5 cm · Paperback
Advances in Metallacrown Chemistry
Publication date: 09-2022
381 p. · 15.5x23.5 cm · Hardback
Publication date: 09-2022
381 p. · 15.5x23.5 cm · Hardback
Description
/li>Contents
/li>Biography
/li>Comment
/li>
This volume focuses on recent developments in metallacrown chemistry. While the field was established in 1989 by Professor Vincent Pecoraro and numerous applications had been proposed, there has been a recent surge in the practical applications for this class of molecules. Written by leaders in the metallacrown chemistry field this book addresses recent developments. The single-molecule magnet properties of metallacrowns are presented along with discussions on their ability to bind DNA, as well as their potency to serve as building blocks for supramolecular structures. The volume is not only intended for those who work directly in the field of metallacrowns but it also appeals to those working in the aligned fields of metallamacrocyclic chemistry, self-assembly chemistry, and supramolecular chemistry. This dedicated volume serves as an encyclopedic reference for those wishing to gain insight into the field.
1. Host-guest Chemistry of Metallacrowns
Bernadette L. Schneider and Vincent L. Pecoraro
1. Molecular recognition in Macrocycles
2. Building up systems of greater complexity
3. 15-MC-5 Host-Guest Chemistry
ConclusionReferences
2. Aspects of NMR Characterization of Metallacrowns
Matteo Melegari and Matteo Tegoni
1. Introduction
2. 1H-NMR of Paramagnetic Complexes
3. Interaction of Metallacrowns with Inorganic and Organic Anions
4. Metal Exchange Equilibria
5. MC Rearragements and Ligand Exchange
Conclusions
References
3. Influence of the hydroxamate ligands’ structure on the thermodynamic properties and structure of metallacrown complexes
Malgorzata Ostrowska, Igor O. Fritsky, and Elzbieta Gumienna-Kontecka
1. Introduction
2. Hydroxamate derivatives as ligands for MCs
3. Self-assembly of metallacrown complexes
4. Thermodynamic properties of metallacrown complexes
5. Structural studies
6. Metallacrowns building blocks
Summary
References
4. Metallacrowns as DNA binders
Agata Głuszyńska and Bernard Juskowiak
1. DNA as a target for ligand binding
2. Analytical techniques for study Ligand/DNA interactions
3. Metallacrown complexes with DNA
Conclusions
References
5. Magnetic Metallacrowns: From Randomness to Rational Design
Thaddeus T. Boron, III
1. Introduction
2. Metallacrowns
3. Pseudo-Metallacrowns with Single-Molecule Magnetic Properties
4. Single-Molecule Magnetic Metallacrowns
Concluding Remarks
References
6. Beyond the metallacrown: Controlling first and second order coordination spheres towards discrete and extended architectures.
Leigh F. Jones
1. An introduction to discrete host-guest assemblies centred on metallacrown host units
2. Fluoro-centred host metallacrowns and their guest enticing abilities
3. Organometallic 12-MCM(III)-3 (M = Ru, Rh, Ir) metallacrown hosts
4. Controlling the first coordination sphere towards selective binding and topology control
5. Inverse metallacrowns and inverse crown ether complexes
Concluding Remarks References
7. Water-soluble 15-Metallacrown-5 Complexes: Molecular Structures and Properties
Marina A. Katkova and Sergey Yu. Ketkov
1. Introduction
2. 15-MC-5 Structural Paradigm
3. Synthetic approaches to aqua complexes
4. Solution-state behavior
5. New similarities and analogues: Bi(III) vs. Ln(III)
Concluding Remarks
References
8. Metallacrown-based catalysts for water oxidation and CO2 reduction
Hua Yang, Jianmin Dou, and You Song
1. Water Oxidation
2. CO2 Conversion
Summary
References
9. A Structural Examination of Metallacrowns with Main Group Elements in the Ring Positions
Jacob C. Lutter and Curtis M. Zaleski
1. Introduction
2. Gallium-containing metallacrown complexes
3. Other main group metallacrown complexes4. Azametallacrown complexes with main group elements
Conclusion
References
Index
Curtis Zaleski earned his Bachelor of Science degree in chemistry at John Carroll University in Cleveland, Ohio while working with Professor Paul R. Challen. He then earned his Ph.D. degree in chemistry at the University of Michigan in Ann Arbor, Michigan under the mentorship of Professor Vincent L. Pecoraro. His doctorate research focused on the single-molecule magnetic properties of metallacrowns. In addition, he was involved with the Preparing Future Faculty program in the Department of Chemistry under the direction of Professor Brian P. Coppola. Upon earning his degree, he continued under Dr. Pecoraro’s mentorship for a teaching-research postdoctoral fellowship that allowed him to hone his teaching skills and prepare for an academic role at a primarily undergraduate institution. In 2006 he joined the Department of Chemistry and Biochemistry at Shippensburg University in Shippensburg, Pennsylvania as an Assistant Professor, rose to Associate Professor in 2011, and was promoted to Professor of Inorganic Chemistry in 2016. While at Shippensburg University he has had the privilege to mentor over 40 undergraduate students in research and publish numerous articles with them. The research of the group focuses on the synthesis and magnetic characterization of lanthanide-containing metallacrowns in particular heterotrimetallic systems with either manganese or aluminum ions in the ring positions of the molecules.
Discusses recent applications in metallacrown chemistry
Encyclopedic source for metallacrowns
Contributions written by leading scientists in the field
© 2024 LAVOISIER S.A.S.