Synthesis and Applications of High-spin Iron Tetra-azamacrocyclic Complexes PDF Download
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Author: Samantha Brewer Ochoa
Publisher:
ISBN:
Category : Carbon
Languages : en
Pages : 152
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Herein we describe the synthesis, characterization, and role several iron complexes in the coupling of pyrrole and phenylboronic acid to form 2-phenylpyrrole. The oxidation state and spin state of the iron complexes were characterized using X-ray crystallography, UV-vis absorbance spectroscopy, cyclic voltammetry, and in some cases electron paramagnetic reasonance spectroscopy. Furthermore, the results indicate that the iron(III) complexes are essential for catalytic and regioselective production of the 2-phenylpyrrole product. The complexes were compared to evaluate the effect of five properties on catalyst reaction yields: the coordination requirements of the catalyst, half-potential, topological constraint/rigidity, N-atom modification(s), increasing oxidative stability of the complex, and geometric parameters. The need for two labile cis-coordination sites was confirmed based on a 42% decrease in catalytic reaction yield observed when complexes containing penta-dentate ligands were used in place of complexes with tetra-dentate ligands. A strong correlation between iron(III/II) redox potential and catalytic reaction yields was also observed, with [Fe2+L6(Cl)2] providing the highest yield (81%, -405 mV). A Lorentzian fitting of redox potential versus yields predicts that these catalysts can undergo more fine tuning to further increase yields. Interestingly, the remaining properties explored did not show a direct, strong relationship to catalytic reaction yields. Furthermore, the role of the sacrificial oxidant, the lack of radical participation, and the formation of μ-oxodiiron species was established leading to a more detailed mechanistic cycle. Finally, a library of five pyclen-based ligands have been developed for use as iron and europium chelators. A preliminary investigation into iron PCTA complexes indicate that the iron center can bind to all seven of the ligand donors, however, the iron complex does not afford a CEST signal. Establishing that heptadentate ligands containing carboxylic acid pendent arms are not ideal for the developments of iron PARACEST agents.
Author: Samantha Brewer Ochoa
Publisher:
ISBN:
Category : Carbon
Languages : en
Pages : 152
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Book Description
Herein we describe the synthesis, characterization, and role several iron complexes in the coupling of pyrrole and phenylboronic acid to form 2-phenylpyrrole. The oxidation state and spin state of the iron complexes were characterized using X-ray crystallography, UV-vis absorbance spectroscopy, cyclic voltammetry, and in some cases electron paramagnetic reasonance spectroscopy. Furthermore, the results indicate that the iron(III) complexes are essential for catalytic and regioselective production of the 2-phenylpyrrole product. The complexes were compared to evaluate the effect of five properties on catalyst reaction yields: the coordination requirements of the catalyst, half-potential, topological constraint/rigidity, N-atom modification(s), increasing oxidative stability of the complex, and geometric parameters. The need for two labile cis-coordination sites was confirmed based on a 42% decrease in catalytic reaction yield observed when complexes containing penta-dentate ligands were used in place of complexes with tetra-dentate ligands. A strong correlation between iron(III/II) redox potential and catalytic reaction yields was also observed, with [Fe2+L6(Cl)2] providing the highest yield (81%, -405 mV). A Lorentzian fitting of redox potential versus yields predicts that these catalysts can undergo more fine tuning to further increase yields. Interestingly, the remaining properties explored did not show a direct, strong relationship to catalytic reaction yields. Furthermore, the role of the sacrificial oxidant, the lack of radical participation, and the formation of μ-oxodiiron species was established leading to a more detailed mechanistic cycle. Finally, a library of five pyclen-based ligands have been developed for use as iron and europium chelators. A preliminary investigation into iron PCTA complexes indicate that the iron center can bind to all seven of the ligand donors, however, the iron complex does not afford a CEST signal. Establishing that heptadentate ligands containing carboxylic acid pendent arms are not ideal for the developments of iron PARACEST agents.
Author: Kimberly L. Kostka
Publisher:
ISBN:
Category :
Languages : en
Pages : 0
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Author: Hannah May Johnston
Publisher:
ISBN:
Category : Macrocyclic compounds
Languages : en
Pages : 298
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Author: Anser S. Qazi
Publisher:
ISBN:
Category : Ammonia
Languages : en
Pages : 16
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Book Description
Among the most essential processes for sustaining the world's population is nitrogen fixation, the conversion of atmospheric nitrogen (N2) into ammonia (NH3), the major component of fertilizer. The industrial Haber-Bosch process for N2 fixation requires extreme temperatures and pressures, and consequentially consumes much of the world's energy. In contrast, bacteria containing the nitrogenase enzyme fix N2 under ambient conditions despite the robust N2 triple bond. A popular approach towards studying the complex mechanism of nitrogenase is to synthesize model complexes of its active site, the iron-molybdenum co-factor (FeMoco). Most model complexes to date are low-spin and thus poorly resemble FeMoco's high-spin environment. The first high-spin iron (I) terminal N2 adduct was recently synthesized by the Harman Lab using an adamantyl-substituted trispyrazolylborate (Tp) ligand. However, its electron-rich nature renders it incapable of forming N-H bonds. We propose the synthesis of a more electron-deficient, fluorinated Tp ligand, Tp(3,5-(CF3)2Ph, CF3 (hydrotris-3-(3,5-bis(trifluoromethyl)Phenyl)-5-(trifluoromethyl)borate). When bound to iron, this should facilitate the reduction at less negative potentials and the functionalization of N2. Synthesis of (3,5-bis(trifluoromethyl)phenyl) methyl ketone has been completed. Claisen condensation with trifluoroethylacetate, followed by condensation with hydrazine to form the pyrazole ring is underway. Combing the pyrazole with sodium borohydride will generate the Na Tp(3,5-(CF3)2Ph, CF3. Subsequent metalation with iron(II) chloride under an inert atmosphere should generate the corresponding iron compound. Compounds will be characterized by a variety of methods including 1H & 19F-NMR, EPR, IR, Raman, X-ray crystallography, and cyclic voltammetry.
Author: Philip Hayden Merrell
Publisher:
ISBN:
Category : Iron
Languages : en
Pages : 400
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ISBN:
Category : Power resources
Languages : en
Pages : 1180
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Author:
Publisher:
ISBN:
Category : Engineering
Languages : en
Pages : 570
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Author: Fabian Mohr
Publisher: John Wiley & Sons
ISBN: 3527320865
Category : Science
Languages : en
Pages : 425
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Written by world-class authors, this most recent major book on the topic highlights new and current trends as well as future directions. It is comprehensive in its scope, covering all aspects of gold chemistry -- from homogeneous to heterogeneous catalysis, from supramolecular assemblies to sensors and medicinal applications. The result is an invaluable work for both organic and inorganic chemists working in universities and industry, as well as material scientists.
Author: Bernd Plietker
Publisher: Springer Science & Business Media
ISBN: 3642146694
Category : Science
Languages : en
Pages : 227
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Juan I. Padrón and Víctor S. Martín: Catalysis by means of Fe-based Lewis acids; Hiroshi Nakazawa*, Masumi Itazaki: Fe–H Complexes in Catalysis; Kristin Schröder, Kathrin Junge, Bianca Bitterlich, and Matthias Beller: Fe-catalyzed Oxidation Reactions of Olefins, Alkanes and Alcohols: Involvement of Oxo- and Peroxo Complexes; Chi-Ming Che, Cong-Ying Zhou, Ella Lai-Ming Wong: Catalysis by Fe=X Complexes (X=NR, CR2); René Peters, Daniel F. Fischer and Sascha Jautze: Ferrocene and Half Sandwich Complexes as Catalysts with Iron Participation; Markus Jegelka, Bernd Plietker: Catalysis by Means of Complex Ferrates.
Author:
Publisher:
ISBN:
Category : Chemistry
Languages : en
Pages : 2540
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